WO2014000241A1

WO2014000241A1 - Configuration method and apparatus in discontinuous reception mechanism

Info

Publication number: WO2014000241A1
Application number: PCT/CN2012/077822
Authority: WO
Inventors: 汪巍崴; 徐海博; 周华
Original assignee: 富士通株式会社
Priority date: 2012-06-29
Filing date: 2012-06-29
Publication date: 2014-01-03

Abstract

A configuration method and apparatus in a discontinuous reception mechanism. The method comprises: a user equipment (UE) determining an end value of the length of expected working time of a coexisting module of the UE in a discontinuous reception (DRX) period; and the UE sending time division multiplexing (TDM) auxiliary information that contains the end value to a base station, so that the base station configures DRX for the UE according to the TDM auxiliary information. Through the method and the apparatus of embodiments, the processing for a terminal in the DRX configuration process is optimized and normal operations of an LTE module and an ISM module of the terminal are ensured.

Description

一种非连续接收机制的配置方法和装置技术领域 Configuration method and device for discontinuous reception mechanism

本发明涉及无线通信技术，尤其涉及一种非连续接收（DRX, Discontinuous Reception) 机制的配置方法和装置。背景技术 The present invention relates to wireless communication technologies, and in particular, to a method and apparatus for configuring a discontinuous reception (DRX) mechanism. Background technique

在 LTE-A (LTE-Advanced, 增强型长期演进） ***中，为了避免终端共存模块间的干扰，终端可以向基站提供关于 TDM (Time-Division Multiplexing, 时分复用）机制的辅助信息来帮助基站配置 DRX (Discontinuous Reception, 非连续接收）机制。这个辅助信息包括 DR 周期以及所期望的分配给 LTE (Long Term Evolution, 长期演进）模块的工作时间。基站在收到辅助信息后，会配置合适的 DR 来保证 LTE模块和 ISM (Industrial Scientific Medical, 工业科学医学）模块的工作时间。 In an LTE-A (LTE-Advanced, Enhanced Long Term Evolution) system, in order to avoid interference between terminal coexistence modules, the terminal may provide auxiliary information about a TDM (Time-Division Multiplexing) mechanism to the base station to help the base station. Configure the DRX (Discontinuous Reception) mechanism. This auxiliary information includes the DR period and the expected working time allocated to the LTE (Long Term Evolution) module. After receiving the auxiliary information, the base station will configure the appropriate DR to guarantee the working time of the LTE module and the ISM (Industrial Scientific Medical) module.

发明人在实现本发明的过程中发现，现有方案中所提供的 DR 周期以及所期望的分配给 LTE模块的工作时间能够帮助基站配置 DRX。但是当基站考虑到自身调度以及其他因素，例如负载、业务要求等，可能会配置一个不能满足终端需求的 DRX (即不能满足终端 LTE模块或 ISM模块的正常工作）。因此，终端只有通过再次发送关于 TDM机制的辅助信息才能触发基站重新配置 DRX机制。这样就会导致多次发送 TDM辅助信息来满足终端 LTE模块和 ISM模块的正常工作。 The inventors have found in the process of implementing the present invention that the DR period provided in the prior scheme and the expected working time allocated to the LTE module can help the base station to configure DRX. However, when the base station considers its own scheduling and other factors, such as load and service requirements, it may configure a DRX that cannot meet the requirements of the terminal (that is, it cannot meet the normal operation of the terminal LTE module or the ISM module). Therefore, the terminal can trigger the base station to reconfigure the DRX mechanism only by sending the auxiliary information about the TDM mechanism again. This will result in multiple transmissions of TDM assistance information to meet the normal operation of the terminal LTE module and ISM module.

应该注意，上面对技术背景的介绍只是为了方便对本发明的技术方案进行清楚、完整的说明，并方便本领域技术人员的理解而阐述的。不能仅仅因为这些方案在本发明的背景技术部分进行了阐述而认为上述技术方案为本领域技术人员所公知。发明内容 It should be noted that the above description of the technical background is only for the purpose of facilitating the clear and complete description of the technical solutions of the present invention, and is convenient for understanding by those skilled in the art. The above technical solutions are not considered to be well known to those skilled in the art simply because these solutions are set forth in the background section of the present invention. Summary of the invention

本发明实施例的目的在于提供一种非连续接收机制的配置方法和装置，以优化 DRX配置过程中终端的处理，保证终端的 LTE模块和 ISM模块的正常工作。 An object of the embodiments of the present invention is to provide a method and a device for configuring a discontinuous reception mechanism, so as to optimize the processing of the terminal in the DRX configuration process, and ensure the normal operation of the LTE module and the ISM module of the terminal.

根据本发明实施例的一个方面，提供了一种非连续接收机制的配置方法，其中，所述方法包括： According to an aspect of the embodiments of the present invention, a method for configuring a discontinuous reception mechanism is provided, where the method includes:

用户设备（UE) 确定其共存模块在一个非连续接收（DRX) 周期内的期望工作时间长度端值； User Equipment (UE) determines the expected operation of its coexistence module during a discontinuous reception (DRX) cycle Length of time

所述 UE向基站发送包含所述端值的时分复用（TDM)辅助信息，以便基站根据所述 TDM辅助信息为所述 UE配置 D X。 Transmitting, by the UE, time division multiplexing (TDM) auxiliary information including the terminal value to the base station, so that the base station configures D X for the UE according to the TDM auxiliary information.

基站接收 UE发送的包括其共存模块在一个 DR 周期内的期望工作时间长度端值的 TDM辅助信息； Receiving, by the base station, TDM auxiliary information sent by the UE, including a desired working time length end value of the coexistence module in one DR period;

基站根据所述 TDM辅助信息为所述 UE配置 DRX。 The base station configures the DRX for the UE according to the TDM auxiliary information.

根据本发明实施例的一个方面，提供了一种非连续接收的配置方法，其中，所述方法包括： According to an aspect of the embodiments of the present invention, a configuration method for discontinuous reception is provided, where the method includes:

UE向基站发送 TDM辅助信息，以便基站根据所述 TDM辅助信息为所述 UE配置初始 DRX; The UE sends TDM auxiliary information to the base station, so that the base station configures the initial DRX for the UE according to the TDM auxiliary information;

UE接收基站反馈的初始 DRX, 根据预先确定的其共存模块在一个 DR 周期内的期望工作时间长度端值，判断所述初始 DR 是否满足要求； The UE receives the initial DRX fed back by the base station, and determines whether the initial DR meets the requirement according to a predetermined end value of the expected working time of the coexistence module in a DR period;

如果所述初始 DR 不满足要求，则所述 UE向所述基站发送不满意指示或者调整其共存模块的业务流。 If the initial DR does not meet the requirement, the UE sends an unsatisfactory indication to the base station or adjusts the service flow of its coexistence module.

基站接收 UE发送的 TDM辅助信息； The base station receives the TDM auxiliary information sent by the UE;

基站根据所述 TDM辅助信息为所述 UE配置 DRX, 并将配置好的 DR 发送给所述 UE; The base station configures the DRX for the UE according to the TDM auxiliary information, and sends the configured DR to the UE;

如果基站接收到 UE反馈的不满意指示，则所述基站向所述 UE发送拒绝消息，或者为所述 UE重新配置 DR 并将重新配置的 DR 发送给所述 UE，或者将所述 UE 切换到其他频率上，或者结束操作。 If the base station receives the unsatisfactory indication fed back by the UE, the base station sends a reject message to the UE, or reconfigures the DR for the UE and sends the reconfigured DR to the UE, or switches the UE to On other frequencies, or end the operation.

根据本发明实施例的一个方面，提供了一种用户设备（UE)，其中，所述 UE包括： According to an aspect of the embodiments of the present invention, a user equipment (UE) is provided, where the UE includes:

确定单元，其确定所述 UE的共存模块在一个非连续接收（DRX) 周期内的期望工作时间长度端值； a determining unit that determines a desired working time length end value of the coexistence module of the UE in a discontinuous reception (DRX) cycle;

发送单元，其向基站发送包含所述端值的时分复用（TDM)辅助信息，以便基站根据所述 TDM辅助信息为所述 UE配置 DRX。 a sending unit, which sends time division multiplexing (TDM) auxiliary information including the terminal value to the base station, so that the base station The DRX is configured for the UE according to the TDM auxiliary information.

根据本发明实施例的一个方面，提供了一种基站，其中，所述基站包括：接收单元，其接收 _UE发送的包括其共存模块在一个 DRX周期内的期望工作时间长度端值的 TDM辅助信息； According to an aspect of the embodiments of the present invention, a base station is provided, where the base station includes: a receiving unit, which receives TDM auxiliary information sent by a _UE including a terminal value of a desired working time length of a coexistence module in a DRX cycle. ;

第一处理单元，其根据所述 TDM辅助信息为所述 UE配置 DR 并将所述 DRX 发送给所述 UE。 And a first processing unit, configured to configure a DR for the UE according to the TDM auxiliary information, and send the DRX to the UE.

根据本发明实施例的一个方面，提供了一种通信***，所述通信***包括前述的用户设备和基站。 According to an aspect of an embodiment of the present invention, a communication system is provided, the communication system comprising the aforementioned user equipment and a base station.

根据本发明实施例的一个方面，提供了一种 UE，其中，所述 UE包括：发送单元，其向基站发送 TDM辅助信息，以便基站根据所述 TDM辅助信息为所述 UE配置初始 DRX; According to an aspect of the present invention, a UE is provided, where the UE includes: a sending unit, which sends TDM auxiliary information to a base station, so that the base station configures an initial DRX for the UE according to the TDM auxiliary information;

接收单元，其接收基站反馈的初始 DRX; a receiving unit, which receives an initial DRX fed back by the base station;

第一判断单元，其根据预先确定的其共存模块在一个 DRX周期内的期望工作时间长度端值，判断所述初始 DR 是否满足要求； a first determining unit, configured to determine whether the initial DR meets a requirement according to a predetermined end time value of a coexistence module in a DRX cycle;

第一处理单元，其在所述第一判断单元判断为所述初始 DR 不满足要求时，向所述基站发送不满意指示或者调整其共存模块的业务流。 And a first processing unit, when the first determining unit determines that the initial DR does not meet the requirement, sends an unsatisfactory indication to the base station or adjusts a service flow of the coexistence module.

根据本发明实施例的一个方面，提供了一种基站，其中，所述基站包括：接收单元，其接收 UE发送的 TDM辅助信息； According to an aspect of the present invention, a base station is provided, where the base station includes: a receiving unit, which receives TDM auxiliary information sent by a UE;

第一处理单元，其根据所述 TDM辅助信息为所述 UE配置 DRX, 并将配置好的 DR 发送给所述 UE; a first processing unit, configured to configure a DRX for the UE according to the TDM auxiliary information, and send the configured DR to the UE;

第二处理单元，其在所述基站接收到 UE反馈的不满意指示时，向所述 UE发送拒绝消息，或者为所述 UE重新配置 DR 并将重新配置的 DR 发送给所述 UE，或者将所述 UE切换到其他频率上，或者结束操作。 a second processing unit, when the base station receives an unsatisfactory indication fed back by the UE, sends a reject message to the UE, or reconfigures the DR for the UE, and sends the reconfigured DR to the UE, or The UE switches to another frequency or ends the operation.

根据本发明实施例的一个方面，提供了一种计算机可读程序，其中当在终端设备中执行该程序时，该程序使得计算机在所述终端设备中执行前述在 UE中执行的非连续接收机制的配置方法。 According to an aspect of an embodiment of the present invention, a computer readable program is provided, wherein when the program is executed in a terminal device, the program causes the computer to perform the aforementioned discontinuous reception mechanism performed in the UE in the terminal device Configuration method.

根据本发明实施例的一个方面，提供了一种存储有计算机可读程序的存储介质，其中该计算机可读程序使得计算机在终端设备中执行前述在 UE中执行的非连续接收机制的配置方法。 According to an aspect of an embodiment of the present invention, a storage medium storing a computer readable program is provided, Wherein the computer readable program causes the computer to perform the aforementioned configuration method of the discontinuous reception mechanism performed in the UE in the terminal device.

根据本发明实施例的一个方面，提供了一种计算机可读程序，其中当在基站中执行该程序时，该程序使得计算机在所述基站中执行前述在基站中执行的非连续接收机制的配置方法。 According to an aspect of an embodiment of the present invention, a computer readable program is provided, wherein when the program is executed in a base station, the program causes a computer to perform configuration of the discontinuous reception mechanism previously performed in the base station in the base station method.

根据本发明实施例的一个方面，提供了一种存储有计算机可读程序的存储介质，其中该计算机可读程序使得计算机在基站中执行前述在基站中执行的非连续接收机制的配置方法。 According to an aspect of an embodiment of the present invention, a storage medium storing a computer readable program, wherein the computer readable program causes a computer to perform a non-continuous receiver configuration method performed in a base station as described above in a base station.

本发明实施例的有益效果在于：通过本发明实施例的方法和装置，优化了 DRX 机制配置过程中终端的处理，保证了终端的 LTE模块和 ISM模块的正常工作。 The beneficial effects of the embodiments of the present invention are as follows: The method and the device in the embodiment of the present invention optimize the processing of the terminal in the DRX mechanism configuration process, and ensure the normal operation of the LTE module and the ISM module of the terminal.

参照后文的说明和附图，详细公开了本发明的特定实施方式，指明了本发明的原理可以被采用的方式。应该理解，本发明的实施方式在范围上并不因而受到限制。在所附权利要求的精神和条款的范围内，本发明的实施方式包括许多改变、修改和等同。 Specific embodiments of the present invention are disclosed in detail with reference to the following description and drawings, which illustrate the manner in which the principles of the invention may be employed. It should be understood that the embodiments of the invention are not limited in scope. The embodiments of the present invention include many variations, modifications, and equivalents within the spirit and scope of the appended claims.

针对一种实施方式描述和 /或示出的特征可以以相同或类似的方式在一个或更多个其它实施方式中使用，与其它实施方式中的特征相组合，或替代其它实施方式中的特征。 Features described and/or illustrated with respect to one embodiment may be used in the same or similar manner in one or more other embodiments, in combination with, or in place of, features in other embodiments. .

应该强调，术语"包括 /包含"在本文使用时指特征、整件、步骤或组件的存在，但并不排除一个或更多个其它特征、整件、歩骤或组件的存在或附加。附图说明 It should be emphasized that the term "comprising" or "comprising" is used to mean the presence of a feature, component, step or component, but does not exclude the presence or addition of one or more other features, components, steps or components. DRAWINGS

参照以下的附图可以更好地理解本发明的很多方面。附图中的部件不是成比例绘制的，而只是为了示出本发明的原理。为了便于示出和描述本发明的一些部分，附图中对应部分可能被放大或缩小。在本发明的一个附图或一种实施方式中描述的元素和特征可以与一个或更多个其它附图或实施方式中示出的元素和特征相结合。此外，在附图中，类似的标号表示几个附图中对应的部件，并可用于指示多于一种实施方式中使用的对应部件。在附图中： Many aspects of the invention can be better understood with reference to the following drawings. The components in the figures are not drawn to scale, but only to illustrate the principles of the invention. To facilitate the illustration and description of some parts of the invention, the corresponding parts in the drawings may be enlarged or reduced. The elements and features described in one of the figures or one embodiment of the invention may be combined with elements and features illustrated in one or more other figures or embodiments. In the accompanying drawings, like reference numerals refer to the In the drawing:

图 1是本发明实施例 1的 DR 机制的配置方法的流程图： 1 is a flowchart of a method for configuring a DR mechanism according to Embodiment 1 of the present invention:

图 2是本发明实施例 2的 DR 机制的配置方法的流程图； 2 is a flowchart of a method for configuring a DR mechanism according to Embodiment 2 of the present invention;

图 3是根据实施例 1和实施例 2的方法的 UE和基站的交互流程图；图 4是本发明实施例 3的 DR 机制的配置方法的流程图；图 5是本发明实施例 4的 DR 机制的配置方法的流程图： 3 is a flow chart of interaction between a UE and a base station according to the methods of Embodiment 1 and Embodiment 2; 4 is a flowchart of a method for configuring a DR mechanism according to Embodiment 3 of the present invention; and FIG. 5 is a flowchart of a method for configuring a DR mechanism according to Embodiment 4 of the present invention:

图 6是根据实施例 3和实施例 4的方法的 UE和基站的交互流程图；图 7是对应实施例 1的方法的 UE的组成示意图； 6 is a flow chart of interaction between a UE and a base station according to the methods of Embodiment 3 and Embodiment 4; FIG. 7 is a schematic diagram of a composition of a UE corresponding to the method of Embodiment 1;

图 8是对应实施例 2的方法的基站的组成示意图； 8 is a schematic diagram showing the composition of a base station corresponding to the method of Embodiment 2;

图 9是对应实施例 3的方法的 UE的组成示意图； 9 is a schematic diagram showing the composition of a UE corresponding to the method of Embodiment 3;

图 10是对应实施例 4的方法的基站的组成示意图。具体实施方式 Figure 10 is a diagram showing the composition of a base station corresponding to the method of Embodiment 4. detailed description

参照附图，通过下面的说明书，本发明实施例的前述以及其它特征将变得明显。这些实施方式只是示例性的，不是对本发明的限制。为了使本领域的技术人员能够容易地理解本发明的原理和实施方式，本发明的实施方式以 LTE***中的非连续接收机制的配置方法为例进行说明，但可以理解，本发明实施例并不限于上述***，对于涉及非连续接收的配置的其他***均适用。 The foregoing and other features of the embodiments of the invention will be apparent from the These embodiments are merely exemplary and are not limiting of the invention. The embodiments of the present invention are described by taking the configuration method of the discontinuous reception mechanism in the LTE system as an example, but it can be understood that the embodiments of the present invention are Not limited to the above system, it is applicable to other systems involving configurations of discontinuous reception.

实施例 1 Example 1

本发明实施例提供了一种非连续接收机制的配置方法。图 1是该方法的流程图，请参照图 1，该方法包括： Embodiments of the present invention provide a configuration method of a discontinuous reception mechanism. Figure 1 is a flow chart of the method. Referring to Figure 1, the method includes:

歩骤 101 : 用户设备（UE)确定其共存模块在一个非连续接收（DRX)周期内的期望工作时间长度端值； Step 101: A user equipment (UE) determines a desired working time length end value of a coexistence module in a discontinuous reception (DRX) period;

其中，用户设备安装有至少两个共存模块，为了避免这至少两个共存模块间的干扰，提出了本发明实施例的方法来帮助基站配置 DRX机制。在以下的说明中，为了描述方便，配置 DR 机制也可称之为配置 DRX。 The user equipment is installed with at least two coexistence modules. To avoid interference between the at least two coexistence modules, the method of the embodiment of the present invention is provided to help the base station configure the DRX mechanism. In the following description, for the convenience of description, configuring the DR mechanism can also be called configuring DRX.

其中，本发明实施例的共存模块可以是 LTE模块，也可以是非 LTE模块，这里的非 LTE模块，可以是工作在 ISM频段的 ISM模块，例如蓝牙模块、 WiFi模块等，本发明实施例并不以此作为限制。其中，所述共存模块在一个 DR 周期内的期望工作时间长度端值可以是以下至少一种信息：所述 LTE模块的最大期望工作时间长度; 所述 LTE模块的最小期望工作时间长度：所述 ISM模块的最大期望工作时间长度；以及所述 ISM模块的最小期望工作时间长度。 The coexistence module of the embodiment of the present invention may be an LTE module or a non-LTE module. The non-LTE module may be an ISM module working in the ISM band, such as a Bluetooth module or a WiFi module. This is used as a limitation. The expected working time length end value of the coexistence module in one DR period may be at least one of the following: a maximum expected working time length of the LTE module; a minimum expected working time length of the LTE module: The maximum expected working time length of the ISM module; and the minimum expected working time length of the ISM module.

其中， UE 可以通过记录预定时间段内所述共存模块的数据流，再根据该数据流确定所述共存模块在一个 DR 周期内的期望工作时间长度端值； UE也可以根据所述共存模块所承载的业务的服务质量要求确定所述共存模块在一个 DR 周期内的期望工作时间长度端值，本发明实施例并不以此作为限制。 The UE may record the data flow of the coexistence module within a predetermined time period, and then according to the data flow. Determining a desired working time length end value of the coexistence module in a DR period; the UE may also determine, according to a quality of service requirement of the service carried by the coexistence module, a desired working time length end of the coexistence module in one DR period The value of the embodiment of the present invention is not limited thereto.

步骤 102: 所述 UE向基站发送包含所述端值的时分复用（TDM) 辅助信息，以便基站根据所述 TDM辅助信息为所述 UE配置 DRX。 Step 102: The UE sends time division multiplexing (TDM) auxiliary information including the end value to a base station, so that the base station configures the DRX for the UE according to the TDM auxiliary information.

其中，该 TDM辅助信息除了包含该端值信息以外，还可以包含现有方案中所包含的信息，例如 DR 周期、分配给 LTE模块的工作时间等，本实施例并不以此作为限制。 The TDM auxiliary information may include the information included in the existing solution, such as the DR period, the working time allocated to the LTE module, and the like, which is not limited by this embodiment.

其中，当 UE确定了其 LTE模块和 /或 ISM模块的最大和 /或最小期望工作时间长度以后，将包含该信息的 TDM 辅助信息发送给基站，基站即可据此为该 UE配置 DRX, 也即据此确定在一个 DR 周期内分配给 LTE模块和 /或 ISM模块的工作时间长度。例如，该工作时间长度不能超过该 LTE模块或 ISM模块的最大期望工作时间长度，也不能小于该 LTE模块或 ISM模块的最小期望工作时间长度。在有些情况下，基站在收到该 TDM辅助信息后，根据自己的调度要求或者负载或者业务要求等，发现不能为该 UE配置满足其要求的 DRX, 也即无法为 UE配置一个 DRX, 使得在该 DRX周期内分配给 LTE模块或 ISM模块的工作时间长度小于上述 LTE模块或 ISM 模块的最大期望工作时间长度，或者在一个 DR 周期内分配给 LTE模块或 ISM模块的工作时间长度大于上述 LTE模块或 ISM模块的最小期望工作时间长度，则基站会向该 UE发送拒绝消息或者为该 UE配置一个不满足其要求的 DR 或者将该 UE 切换到其他的满足其要求的频率上。 After the UE determines the maximum and/or minimum expected working time of the LTE module and/or the ISM module, the TDM auxiliary information including the information is sent to the base station, and the base station can configure the DRX for the UE accordingly. That is, the working time length allocated to the LTE module and/or the ISM module in one DR cycle is determined accordingly. For example, the working time length cannot exceed the maximum expected working time length of the LTE module or the ISM module, and cannot be less than the minimum expected working time length of the LTE module or the ISM module. In some cases, after receiving the TDM auxiliary information, the base station finds that the UE cannot be configured with the DRX that meets its requirements according to its own scheduling requirements or load or service requirements, that is, the DRX cannot be configured for the UE. The working time length allocated to the LTE module or the ISM module in the DRX period is smaller than the maximum expected working time length of the LTE module or the ISM module, or the working time allocated to the LTE module or the ISM module in one DR period is longer than the foregoing LTE module. Or the minimum expected working time length of the ISM module, the base station sends a reject message to the UE or configures the UE with a DR that does not meet its requirements or switches the UE to another frequency that meets its requirements.

在一个实施例中，如果所述 UE接收到所述基站发送的拒绝消息，则所述 UE调整其共存模块（LTE模块和 /或 ISM模块）的业务流，根据调整后的共存模块的业务流更新所述端值信息 (LTE模块和 /或 ISM 模块的最大和 /或最小期望工作时间长度），然后向所述基站发送包含更新后的端值信息的 TDM辅助信息。此时由于端值信息发生了变化，基站会根据更新后的端值信息为该 UE重新配置 DRX, 其处理与前述相同，在此不再赘述。其中，该拒绝消息中可以包含拒绝的原因，如期望的 LTE模块的最大工作时间太短，或期望的 ISM模块的最大工作时间太长。在这种情况下，终端可以调整共存模块的业务，如当收到的拒绝原因为期望的 LTE模块的最大工作时间太短时， UE就减少 ISM模块的业务流或减少 LTE模块的业务流，当收到的原因为期望的 ISM模块的最大工作时间太长时， UE就减少 ISM模块的业务流或 LTE模块的业务流，然后发送新的 TDM辅助信息，或者结束共存干扰避免机制。 In an embodiment, if the UE receives the reject message sent by the base station, the UE adjusts the service flow of the coexistence module (LTE module and/or the ISM module) according to the adjusted service flow of the coexistence module. The end value information (maximum and/or minimum expected working time length of the LTE module and/or the ISM module) is updated, and then TDM auxiliary information including the updated end value information is transmitted to the base station. At this time, the terminal information is changed, and the base station reconfigures the DRX for the UE according to the updated terminal value information, and the processing is the same as the foregoing, and details are not described herein again. The reason for the rejection may be included in the rejection message, such as the expected maximum working time of the LTE module is too short, or the expected maximum working time of the ISM module is too long. In this case, the terminal can adjust the service of the LTE module. For example, when the received refusal reason is that the maximum working time of the LTE module is too short, the UE reduces the service flow of the ISM module or reduces the service flow of the LTE module. When the reason is received When the maximum working time of the expected ISM module is too long, the UE reduces the traffic flow of the ISM module or the service flow of the LTE module, and then sends new TDM auxiliary information, or ends the coexistence interference avoidance mechanism.

在另外一个实施例中，如果所述 UE接收到所述基站发送的 DRX, 则这个 DRX 可能是符合其要求的 DRX, 也可能是不符合其要求的 DRX, 则此时，该 UE根据所述端值判断所述 D X是否满足要求，如果满足要求，则配置成功， UE结束处理；如果不满足要求，则该 UE根据该 DR 调整其共存模块（LTE模块和 /或 ISM模块）的业务流，根据调整后的共存模块的业务流更新所述端值信息 (LTE模块和 /或 ISM 模块的最大和 /或最小期望工作时间长度），然后向所述基站发送包含更新后的端值信息的 TDM辅助信息。此时由于端值信息发生了变化，基站会根据更新后的端值信息为该 UE重新配置 DRX, 其处理与前述相同，在此不再赘述。 In another embodiment, if the UE receives the DRX sent by the base station, the DRX may be a DRX that meets its requirements, or may be a DRX that does not meet its requirements. The terminal value determines whether the DX meets the requirements. If the requirement is met, the configuration is successful, and the UE ends the processing. If the requirement is not met, the UE adjusts the service flow of the coexistence module (the LTE module and/or the ISM module) according to the DR. Updating the end value information (maximum and/or minimum expected working time length of the LTE module and/or the ISM module) according to the service flow of the adjusted coexistence module, and then transmitting the TDM including the updated end value information to the base station Supplementary information. At this time, the terminal information is changed, and the base station reconfigures the DRX for the UE according to the updated terminal value information, and the processing is the same as the foregoing, and details are not described herein again.

其中，在 UE根据所述端值判断所述 DRX是否满足要求的步骤中，如果所述 DRX 中分配给 LTE模块的工作时间长度大于所述 LTE模块的最大期望工作时间长度；或者，分配给 LTE模块的工作时间长度小于所述 LTE模块的最小期望工作时间长度；或者，分配给 ISM模块的工作时间长度大于所述 ISM模块的最大期望工作时间长度；或者，分配给 ISM模块的工作时间长度小于所述 ISM模块的最小期望工作时间长度，则所述 UE确定所述 DRX不满足要求。 The step of determining, by the UE, whether the DRX meets the requirement according to the terminal value, if the working time length allocated to the LTE module in the DRX is greater than a maximum expected working time length of the LTE module; or, assigning to the LTE The working time length of the module is smaller than the minimum expected working time of the LTE module; or the working time length allocated to the ISM module is greater than the maximum expected working time of the ISM module; or the working time allocated to the ISM module is less than The minimum expected working time length of the ISM module, the UE determines that the DRX does not meet the requirement.

在前述两个实施例中，该 UE可以在收到所述拒绝消息或所述不满足要求的 DRX 后，立即调整所述共存模块的业务流，也可以在收到所述拒绝消息或所述不满足要求的 DRX后，在预定时间段后调整所述共存模块的业务流。本实施例并不以此作为限制。 In the foregoing two embodiments, the UE may immediately adjust the service flow of the coexistence module after receiving the reject message or the DRX that does not meet the requirement, or may receive the reject message or the After the DRX is not satisfied, the service flow of the coexistence module is adjusted after a predetermined period of time. This embodiment is not intended to be limiting.

在前述两个实施例中，在 UE调整所述共存模块的业务流的步骤中，如果所述 DRX 中分配给 LTE模块的工作时间长度大于所述 LTE模块的最大期望工作时间长度，则所述 UE减少所述 LTE模块的业务流；如果所述 DRX中分配给 LTE模块的工作时间长度小于所述 LTE模块的最小期望工作时间长度，则所述 UE减少所述 ISM模块的业务流；如果所述 DR 中分配给 ISM模块的工作时间长度大于所述 ISM模块的最大期望工作时间长度，则所述 UE减少所述 ISM模块的业务流；如果所述 DRX中分配给 ISM模块的工作时间长度小于所述 ISM模块的最小期望工作时间长度，则所述 UE减少所述 LTE模块的业务流。 In the foregoing two embodiments, in the step of the UE adjusting the service flow of the coexistence module, if the working time length allocated to the LTE module in the DRX is greater than the maximum expected working time length of the LTE module, The UE reduces the service flow of the LTE module; if the working time length allocated to the LTE module in the DRX is less than the minimum expected working time length of the LTE module, the UE reduces the service flow of the ISM module; If the working time length allocated to the ISM module in the DR is greater than the maximum expected working time length of the ISM module, the UE reduces the service flow of the ISM module; if the working time length allocated to the ISM module in the DRX is less than The minimum expected working time of the ISM module, the UE reduces the traffic of the LTE module.

通过本实施例的方法， UE将其共存模块的期望工作时间长度的端值作为 TDM辅助信息的一部分提供给基站，基站据此可以为 UE配置一个符合其要求的 DRX, 或者即便基站无法为该 UE配置一个符合其要求的 DRX, 也可以通过其他方式（例如发拒绝消息、发不符合要求的 DRX、将 UE切换到符合要求的频率上），通过与 UE 的交互达到满足 UE要求的目的。由此，优化了 DR 配置过程中终端的处理，保证了终端的 LTE模块和 ISM模块的正常工作。 With the method of the embodiment, the UE provides the terminal value of the expected working time length of the coexistence module to the base station as part of the TDM auxiliary information, and the base station can configure the UE with a DRX that meets the requirements thereof, or Even if the base station cannot configure the UE with a DRX that meets its requirements, it can be achieved through other interactions (such as sending a reject message, sending a DRX that does not meet the requirements, and switching the UE to a required frequency). Meet the requirements of the UE requirements. Therefore, the processing of the terminal in the DR configuration process is optimized, and the normal operation of the LTE module and the ISM module of the terminal is ensured.

实施例 2 Example 2

本发明实施例还提供了一种非连续接收机制的配置方法，该方法是对应实施例 1 的方法的基站侧的处理。图 2是该方法的流程图，请参照图 2，该方法包括： The embodiment of the present invention further provides a configuration method of a discontinuous reception mechanism, which is a processing on the base station side corresponding to the method of Embodiment 1. 2 is a flow chart of the method. Referring to FIG. 2, the method includes:

步骤 201 :基站接收 UE发送的包括其共存模块在一个 DR 周期内的期望工作时间长度端值的 TDM辅助信息； Step 201: The base station receives TDM auxiliary information sent by the UE, including a desired working time length end value of the coexistence module in one DR period;

其中，与实施例 1相同，该共存模块可以为 LTE模块和 ISM模块，该共存模块在一个 DR 周期内的期望工作时间长度端值可以为以下信息的至少一种：所述 LTE 模块的最大期望工作时间长度；所述 LTE模块的最小期望工作时间长度；所述 ISM 模块的最大期望工作时间长度；以及所述 ISM模块的最小期望工作时间长度。 In the same manner as the first embodiment, the coexistence module may be an LTE module and an ISM module, and the expected working time length end value of the coexistence module in one DR period may be at least one of the following information: a maximum expected of the LTE module. The length of the working time; the minimum expected working time length of the LTE module; the maximum expected working time length of the ISM module; and the minimum expected working time length of the ISM module.

步骤 203 : 基站根据所述 TDM辅助信息为所述 UE配置 DRX。 Step 203: The base station configures the DRX for the UE according to the TDM auxiliary information.

其中，如实施例 1所述，该基站根据包含上述端值信息的 TDM辅助信息为所述 UE配置 DRX，例如，根据所述 TDM辅助信息中的端值信息，为所述 UE的 LTE模块和 /或 ISM模块分配在一个 DR 周期内的工作时间。其中，分配给 LTE模块的工作时间长度小于所述 LTE模块的最大期望工作时间长度值；和 /或，分配给 LTE模块的工作时间长度大于所述 LTE模块的最小期望工作时间长度值；和 /或，分配 ISM模块的工作时间长度小于所述 ISM模块的最大期望工作时间长度值;和 /或，分配给 ISM 模块的工作时间长度大于上述 LTE模块的最小期望工作时间长度值。 The base station configures the DRX for the UE according to the TDM auxiliary information including the terminal information, as described in Embodiment 1, for example, according to the end value information in the TDM auxiliary information, the LTE module of the UE and / or ISM module is assigned the working time in a DR cycle. The working time length allocated to the LTE module is smaller than the maximum expected working time length value of the LTE module; and/or the working time length allocated to the LTE module is greater than the minimum expected working time length value of the LTE module; Or, the working time length of the ISM module is less than the maximum expected working time length of the ISM module; and/or the working time length allocated to the ISM module is greater than the minimum expected working time length value of the LTE module.

在一个实施例中，基站在为所述 UE配置 DR 之前，可以先根据所述 TDM辅助信息判断能否为 UE配置符合要求的 DRX (步骤 202)，如果能，则按照歩骤 203为 UE配置 DRX; 如果不能，则向所述 UE发送拒绝消息，或者为所述 UE配置不能满足要求的 DR 并将该不能满足要求的 DR 发送给所述 UE，或者将所述 UE切换到能满足要求的频率上。 In an embodiment, before configuring the DR for the UE, the base station may first determine, according to the TDM auxiliary information, whether the UE can be configured with the required DRX (step 202). If yes, configure the UE according to step 203. The DRX; if not, sends a reject message to the UE, or configures the UE to fail to meet the required DR and sends the DR that does not meet the requirement to the UE, or switches the UE to meet the requirement. On the frequency.

其中，如果基站向 UE发送拒绝消息，则该拒绝消息中还可以包含拒绝的原因，例如，期望的 LTE模块的最大工作时间太短，或期望的 ISM模块的最大工作时间太长等等。由此， UE可以根据该拒绝消息，调整其相应共存模块的业务流，以降低该相应共存模块的上述端值，具体的处理过程如实施例 1所述，在此省略说明。 If the base station sends a reject message to the UE, the reject message may further include a reason for the rejection, for example, the maximum working time of the expected LTE module is too short, or the expected maximum working time of the ISM module is too long, and the like. Therefore, the UE may adjust the service flow of the corresponding coexistence module according to the reject message to reduce the The above-mentioned terminal values of the corresponding coexistence modules are as described in the first embodiment, and the description thereof is omitted here.

其中，如果基站向 UE发送其为该 UE配置的不符合其要求的 DRX, 也即，不能满足 LTE模块和 /或 ISM模块的最大和 /或最小期望工作时间长度要求的 DRX，则 UE 可以先执行该不符合要求的 DRX，然后根据该不符合其要求的 DRX，调整其相应的共存模块的业务流。例如，如果基站为 UE配置的该不符合其要求的 DRX导致 LTE 模块（或 ISM模块）的工作时间超过了其最大期望工作时间， UE就减少 LTE模块（或 ISM 模块）的业务流，由此上述端值信息（最大期望工作时间）得到了更新，然后 UE再向基站发送新的 TDM辅助信息；如果基站为 UE配置的该不符合要求的 DRX 导致 LTE模块（或 ISM模块）的工作时间小于了其最小期望工作时间，终端就减少 ISM模块（或 LTE模块）的业务流，由此上述端值信息（最小期望工作时间）得到了更新，然后 UE再向基站发送新的 TDM辅助信息。 If the base station sends the DRX that the UE configures for the UE that does not meet its requirements, that is, the DRX that cannot meet the maximum and/or minimum expected working time length requirements of the LTE module and/or the ISM module, the UE may first The DRX that does not meet the requirements is executed, and then the traffic flow of the corresponding coexistence module is adjusted according to the DRX that does not meet the requirements. For example, if the LTE module (or ISM module) whose working time exceeds its maximum expected working time, the UE reduces the traffic of the LTE module (or the ISM module). The end value information (maximum expected working time) is updated, and then the UE sends new TDM auxiliary information to the base station; if the non-compliant DRX configured by the base station for the UE causes the working time of the LTE module (or the ISM module) to be smaller than With its minimum expected working time, the terminal reduces the traffic flow of the ISM module (or LTE module), whereby the above-mentioned end value information (minimum expected working time) is updated, and then the UE sends new TDM auxiliary information to the base station.

其中，如果基站将所述 UE切换到能满足要求的频率上，也即，基站将 UE切换到能够满足 LTE模块和 /或 ISM模块工作时间要求 (最大和 /或最小期望工作时间长度 ) 的另外一个频率，则基站与 UE的处理可以采用现有手段来实现，在此不再赘述。 Wherein, if the base station switches the UE to a frequency that satisfies the requirement, that is, the base station switches the UE to another that can meet the working time requirement (maximum and/or minimum expected working time length) of the LTE module and/or the ISM module. For a frequency, the processing of the base station and the UE may be implemented by using existing methods, and details are not described herein again.

在以上的实施例中， UE侧的处理与实施例 1相同，其内容被合并于此，在此不再赘述。 In the above embodiment, the processing on the UE side is the same as that in Embodiment 1, and the content thereof is incorporated herein, and details are not described herein.

通过本实施例的方法， UE将其共存模块的期望工作时间长度的端值作为 TDM辅助信息的一部分提供给基站，基站据此可以为 UE配置一个符合其要求的 DRX，或者即便基站无法为该 UE配置一个符合其要求的 DRX, 也可以通过其他方式（例如发拒绝消息、发不符合要求的 D X、将 UE切换到符合要求的频率上），通过与 UE 的交互达到满足 UE要求的目的。由此，优化了 DR 配置过程中终端的处理，保证了终端的 LTE模块和 ISM模块的正常工作。 With the method of the embodiment, the UE provides the end value of the expected working time length of the coexistence module to the base station as part of the TDM auxiliary information, and the base station can configure the UE with a DRX that meets the requirements, or even if the base station cannot The UE configures a DRX that meets its requirements. It can also meet the requirements of the UE through other interactions (such as sending a reject message, sending a non-compliant DX, and switching the UE to the required frequency). Therefore, the processing of the terminal in the DR configuration process is optimized, and the normal operation of the LTE module and the ISM module of the terminal is ensured.

为了使实施例 1和实施例 2的方法更加清楚易懂，以下通过 UE和基站的交互流程图对实施例 1和实施例 2进行详细说明。 In order to make the methods of Embodiment 1 and Embodiment 2 more clear and understandable, Embodiment 1 and Embodiment 2 will be described in detail below through an interaction flow diagram of a UE and a base station.

图 3a和图 3b是对应实施例 1和实施例 2的方法的 UE和基站侧的交互流程图，其中，图 3a是基站为 UE配置了合适的 DRX的交互流程图，图 3b是基站为 UE配置不合适的 DR 的交互流程图。 Figure 3a and Figure 3b are flow diagrams of the interaction between the UE and the base station in the method of the first embodiment and the second embodiment. Figure 3a is an interaction flow diagram of the base station configuring the appropriate DRX for the UE, and Figure 3b is the base station for the UE. Configure an interactive flowchart for the inappropriate DR.

请参照图 3a，该交互过程包含以下步骤： Referring to Figure 3a, the interaction process includes the following steps:

步骤 301 : UE向基站发送 TDM辅助信息；其中，该 TDM辅助信息中包含了共存模块的期望工作时间长度的端值信息，例如 LTE模块和 /或 ISM模块的最大和 /或最小期望工作时间长度。 Step 301: The UE sends TDM auxiliary information to the base station. The TDM auxiliary information includes end value information of a desired working time length of the coexistence module, such as a maximum and/or minimum expected working time length of the LTE module and/or the ISM module.

步骤 302: 基站根据上述 TDM辅助信息，获得了合适的 DR 配置；步骤 303: 基站向 UE配置该 DRX; Step 302: The base station obtains a suitable DR configuration according to the foregoing TDM auxiliary information. Step 303: The base station configures the DRX to the UE.

步骤 304: UE根据配置的 DR 执行 TDM机制。 Step 304: The UE performs a TDM mechanism according to the configured DR.

请参照图 3b，该交互过程包含以下步骤： Referring to Figure 3b, the interaction process includes the following steps:

歩骤 301，： UE向基站发送 TDM辅助信息； Step 301: The UE sends TDM auxiliary information to the base station.

其中，该 TDM辅助信息中包含了共存模块的期望工作时间长度的端值信息，例如 LTE模块和 /或 ISM模块的最大和 /或最小期望工作时间长度。 The TDM auxiliary information includes end value information of a desired working time length of the coexistence module, such as a maximum and/or a minimum expected working time length of the LTE module and/or the ISM module.

步骤 302' : 基站根据自己的调度、负载、业务要求等发现无法获得合适的 DRX 配置； Step 302': The base station finds that the proper DRX configuration cannot be obtained according to its scheduling, load, service requirements, and the like;

步骤 303 '：基站向 UE发送拒绝消息或者为 UE配置不合适的 DRX; Step 303 ': The base station sends a reject message to the UE or configures an inappropriate DRX for the UE;

步骤 304'： UE根据配置的不合适的 DR 执行 TDM机制（如果能收到不合适的 DR 配置），并马上或一段时间后调整 LTE模块和 /或 ISM模块上的业务流。 Step 304': The UE performs a TDM mechanism according to the configured inappropriate DR (if an inappropriate DR configuration can be received), and adjusts the service flow on the LTE module and/or the ISM module immediately or after a period of time.

实施例 3 Example 3

本发明实施例还提供了一种非连续接收机制的配置方法。图 4是该方法的流程图，请参照图 4，该方法包括： The embodiment of the invention further provides a configuration method of a discontinuous reception mechanism. 4 is a flow chart of the method. Referring to FIG. 4, the method includes:

歩骤 401： UE向基站发送 TDM辅助信息，以便基站根据所述 TDM辅助信息为所述 UE配置初始 DRX; Step 401: The UE sends TDM auxiliary information to the base station, so that the base station configures the initial DRX for the UE according to the TDM auxiliary information.

其中，该 TDM辅助信息包含 DR 周期以及 LTE模块的工作时间，该 UE可以通过现有机制向基站提供该 TDM辅助信息，基站根据该 TDM辅助信息可以为 UE 配置 DRX, 在本实施例中，将该 DRX称为初始 DRX。 The TDM auxiliary information includes a DR period and an operating time of the LTE module, and the UE may provide the TDM auxiliary information to the base station by using an existing mechanism, and the base station may configure the DRX for the UE according to the TDM auxiliary information. In this embodiment, This DRX is called the initial DRX.

步骤 402: UE接收基站反馈的初始 DRX，根据预先确定的其共存模块在一个 DRX 周期内的期望工作时间长度端值，判断所述初始 DR 是否满足要求； Step 402: The UE receives the initial DRX fed back by the base station, and determines whether the initial DR meets the requirement according to a predetermined end value of the expected working time of the coexistence module in a DRX cycle.

其中，与实施例 1相同，该共存模块可以为 LTE模块和 ISM模块，该共存模块在一个 DR 周期内的期望工作时间长度端值可以为以下信息的至少一种：所述 LTE 模块的最大期望工作时间长度：所述 LTE模块的最小期望工作时间长度；所述 ISM 模块的最大期望工作时间长度；以及所述 ISM模块的最小期望工作时间长度。 In the same manner as the first embodiment, the coexistence module may be an LTE module and an ISM module, and the expected working time length end value of the coexistence module in one DR period may be at least one of the following information: a maximum expected of the LTE module. Working time length: the minimum expected working time length of the LTE module; the maximum expected working time length of the ISM module; and the minimum expected working time length of the ISM module.

其中，在步骤 402之前， UE可以先确定其共存模块在一个 DR 周期内的期望工作时间长度端值。与实施例 1相同， UE可以记录预定时间段内所述共存模块的数据流，再根据所述数据流确定所述共存模块在一个 DR 周期内的期望工作时间长度端值； UE也可以根据所述共存模块所承载的业务的服务质量要求确定所述共存模块在一个 DRX周期内的期望工作时间长度端值。 Before step 402, the UE may first determine the expected work of the coexistence module in one DR period. The length of time is the end value. The UE may record the data flow of the coexistence module in a predetermined time period, and determine the expected working time length end value of the coexistence module in one DR period according to the data flow; The quality of service requirement of the service carried by the coexistence module determines the expected working time length end value of the coexistence module in one DRX cycle.

其中，根据该端值信息， UE可以确定接收到的基站发送的初始 DR 是否满足要求。例如，如果所述初始 DR 中分配给 LTE模块的工作时间长度大于所述 LTE模块的最大期望工作时间长度；或者，分配给 LTE模块的工作时间长度小于所述 LTE模块的最小期望工作时间长度；或者，分配给 ISM模块的工作时间长度大于所述 ISM 模块的最大期望工作时间长度；或者，分配给 ISM模块的工作时间长度小于所述 ISM 模块的最小期望工作时间长度，则所述 UE确定所述初始 DRX不满足要求。 The UE may determine, according to the end value information, whether the initial DR sent by the received base station meets the requirement. For example, if the working time length allocated to the LTE module in the initial DR is greater than the maximum expected working time length of the LTE module; or, the working time length allocated to the LTE module is smaller than the minimum expected working time length of the LTE module; Or, the working time length allocated to the ISM module is greater than the maximum expected working time length of the ISM module; or the working time length allocated to the ISM module is less than the minimum expected working time length of the ISM module, The initial DRX does not meet the requirements.

步骤 403: 如果所述初始 DR 不满足要求，则所述 UE向所述基站发送不满意指示或者调整其共存模块的业务流。 Step 403: If the initial DR does not meet the requirement, the UE sends an unsatisfactory indication to the base station or adjusts a service flow of the coexistence module.

其中， UE在歩骤 401按照现有机制向基站提供 TDM辅助信息（也即其期望的 DR 周期以及 LTE模块的工作时间）后，如果 UE在步骤 402不满意基站配置的 DRX (初始 DRX), 例如，配置的 DR 中分配给 LTE模块的工作时间超过了期望的最大值，或分配给 LTE模块的工作时间小于期望的最小值，或分配给 ISM模块的工作时间超过了期望的最大值，或分配给 ISM模块的工作时间小于期望的最小值，则 UE 可以发送一个不满意指示消息给基站，也可以如实施例 1 的方法一样先根据配置的 DR 执行 TDM机制，再调整其 LTE模块和 /或 ISM模块的业务流，然后向基站发送新的 TDM辅助信息。在向基站发送不满意指示或者调整其共存模块的业务流之前， UE也可以先按照该初始 DRX机制执行 TDM机制。 After the UE provides the TDM auxiliary information (that is, its expected DR period and the working time of the LTE module) to the base station according to the existing mechanism, if the UE is not satisfied with the DRX (initial DRX) configured by the base station in step 402, For example, the working time allocated to the LTE module in the configured DR exceeds the expected maximum value, or the working time allocated to the LTE module is less than the expected minimum value, or the working time allocated to the ISM module exceeds the expected maximum value, or If the working time allocated to the ISM module is less than the expected minimum value, the UE may send an unsatisfactory indication message to the base station, or perform the TDM mechanism according to the configured DR, and then adjust the LTE module and/or as in the method of Embodiment 1. Or the traffic flow of the ISM module, and then send new TDM auxiliary information to the base station. Before transmitting the unsatisfactory indication to the base station or adjusting the service flow of the coexistence module, the UE may also perform the TDM mechanism according to the initial DRX mechanism.

可选地，如果 UE向基站发送不满意指示消息，则这个指示消息还可以指明不满意的原因，如配置的 DRX中分配给 LTE模块的工作时间超过了期望的最大值，或分配给 LTE模块的工作时间小于期望的最小值，或分配给 ISM模块的工作时间超过了期望的最大值，或分配给 ISM模块的工作时间小于期望的最小值。 Optionally, if the UE sends the dissatisfaction indication message to the base station, the indication message may also indicate the reason for the dissatisfaction, such as the working time allocated to the LTE module in the configured DRX exceeds the expected maximum value, or is allocated to the LTE module. The working time is less than the expected minimum, or the working time assigned to the ISM module exceeds the expected maximum, or the operating time allocated to the ISM module is less than the expected minimum.

可选的，如果 UE调整其共存模块的业务流，可以在收到基站配置的上述不符合要求的 DRX (初始 DRX)后马上调整，也可以在经过一段时间后再执行调整。其中，调整其共存模块的业务流也就是调整其 LTE模块和 /或 ISM模块的业务流。例如，如果配置的 DRX导致 LTE模块（或 ISM模块）的工作时间超过了其最大期望工作时间， UE就减少 LTE模块（或 ISM模块）的业务流；如果配置的 DR 导致 LTE模块 (或 ISM模块）的工作时间小于了其最小期望工作时间，终端就减少 ISM模块（或 LTE模块）的业务流。 Optionally, if the UE adjusts the service flow of the coexistence module, it may adjust immediately after receiving the non-compliant DRX (initial DRX) configured by the base station, or may perform the adjustment after a period of time. The service flow of the coexistence module is adjusted to adjust the service flow of the LTE module and/or the ISM module. For example, if the configured DRX causes the LTE module (or ISM module) to work longer than its maximum expected operation The UE reduces the traffic of the LTE module (or the ISM module). If the configured DR causes the working time of the LTE module (or the ISM module) to be less than its minimum expected working time, the terminal reduces the ISM module (or LTE module). business flow.

其中，基站在收到不满意指示消息后，可以向 UE发送拒绝消息；也可以为 UE 重配一个 DRX; 还可以结束操作（沿用已有的 DRX); 还可以将该 UE切换到其他满足要求的频率上。 After receiving the dissatisfied indication message, the base station may send a reject message to the UE; or may re-allocate a DRX for the UE; may also end the operation (using the existing DRX); or switch the UE to other requirements. On the frequency.

由此， UE在向基站发送了不满意的指示后，本实施例的方法还包括以下歩骤：步骤 404: UE根据预先确定的其共存模块在一个 DR 周期内的期望工作时间长度端值，判断是否接收到满足要求的 DRX; Therefore, after the UE sends an unsatisfactory indication to the base station, the method in this embodiment further includes the following steps: Step 404: The UE according to the predetermined end time value of the expected working time length of the coexistence module in one DR period, Determine whether a DRX that meets the requirements is received;

步骤 405: 如果没有接收到 DR 或者接收到的 DRX不能满足要求，则所述 UE 执行所述初始 DRX或者执行接收到的不满足要求的 DRX，并向所述基站发送不满意指示或者调整其共存模块的业务流。 Step 405: If the DR is not received or the received DRX cannot meet the requirement, the UE performs the initial DRX or performs the received DRX that does not meet the requirement, and sends an unsatisfactory indication to the base station or adjusts its coexistence. The business flow of the module.

在一个实施例中，基站向 UE发送了拒绝消息，此时， UE没有收到新的 D X, 则 UE可以执行初始 DRX, 并继续向基站发送不满意指示或者调整其共存模块的业务流。 In an embodiment, the base station sends a reject message to the UE. At this time, if the UE does not receive the new D X, the UE may perform the initial DRX and continue to send an unsatisfactory indication to the base station or adjust the traffic flow of the coexistence module.

在另外一个实施例中，基站为 UE重配了一个 DRX，此时， UE收到一个新的 DRX，则与实施例 1相同， UE可以根据前述端值信息判断该新的 DRX (区别于步骤 402的初始 DRX, 在本实施例中称为新的 DR 或重配的 DRX) 是否满足要求，例如，如果该新的 DR 中分配给 LTE模块的工作时间长度大于所述 LTE模块的最大期望工作时间长度；或者，分配给 LTE模块的工作时间长度小于所述 LTE模块的最小期望工作时间长度；或者，分配给 ISM模块的工作时间长度大于所述 ISM模块的最大期望工作时间长度；或者，分配给 ISM模块的工作时间长度小于所述 ISM模块的最小期望工作时间长度，则所述 UE确定该新的 DRX不满足要求。如果该重配的 DRX不满足要求，也即 UE收到一个不满足要求的 DRX, 则 UE可以执行该重配的 DRX, 并继续向基站发送不满意指示或者调整其共存模块的业务流。 In another embodiment, the base station re-provisions a DRX for the UE. In this case, the UE receives a new DRX, and the UE can determine the new DRX according to the foregoing terminal information. Whether the initial DRX of 402, referred to as a new DR or re-allocated DRX in the present embodiment, satisfies the requirement, for example, if the working time length allocated to the LTE module in the new DR is greater than the maximum expected work of the LTE module The length of the working time allocated to the LTE module is less than the minimum expected working time of the LTE module; or the working time allocated to the ISM module is greater than the maximum expected working time of the ISM module; or, If the working time length of the ISM module is less than the minimum expected working time length of the ISM module, the UE determines that the new DRX does not meet the requirement. If the reconfigured DRX does not meet the requirement, that is, the UE receives a DRX that does not meet the requirement, the UE may perform the re-allocated DRX and continue to send an unsatisfactory indication to the base station or adjust the service flow of the coexistence module.

在另外一个实施例中，基站结束了操作，也即基站没有向 UE发送任何信息， UE 没有收到新的 DRX, 则 UE可以执行初始 DRX，并继续向基站发送不满意指示或者调整其共存模块的业务流。 In another embodiment, the base station ends the operation, that is, the base station does not send any information to the UE, and the UE does not receive the new DRX, the UE may perform initial DRX, and continue to send an unsatisfactory indication to the base station or adjust its coexistence module. Business flow.

在另外一个实施例中，基站将该 UE切换到了符合要求的其他频率上，则基站和 UE的处理可以采用现有手段，在此不再赘述。 In another embodiment, the base station switches the UE to other frequencies that meet the requirements, and the base station and The processing of the UE may be performed by using existing means, and details are not described herein again.

在前述实施例中，所述不满意指示也可以包含不满意原因，与前述相同，该不满意原因例如为：配置的 DR 中分配给 LTE模块的工作时间大于所述 LTE模块的最大期望工作时间长度，或分配给 LTE模块的工作时间小于所述 LTE模块的最小期望工作时间长度，或分配给 ISM模块的工作时间大于所述 ISM模块的最大期望工作时间长度，或分配给 ISM模块的工作时间小于所述 ISM模块的最小期望工作时间长度。 In the foregoing embodiment, the dissatisfaction indication may also include an unsatisfactory reason, which is the same as the foregoing, for example, the working time allocated to the LTE module in the configured DR is greater than the maximum expected working time of the LTE module. The length, or the working time allocated to the LTE module is less than the minimum expected working time of the LTE module, or the working time allocated to the ISM module is greater than the maximum expected working time of the ISM module, or the working time allocated to the ISM module. Less than the minimum expected working time length of the ISM module.

在前述实施例中，在需要调整共存模块的业务流时，与前述相同，可以立即调整，也可以在预定时间段后调整。其中，该 UE调整其共存模块的业务流的方法中：如果所述不满足要求的 DR 中分配给 LTE模块的工作时间长度大于所述 LTE模块的最大期望工作时间长度，则所述 UE减少所述 LTE模块的业务流；如果所述不满足要求的 DRX中分配给 LTE模块的工作时间长度小于所述 LTE模块的最小期望工作时间长度，则所述 UE减少所述 ISM模块的业务流；如果所述不满足要求的 DRX中分配给 ISM模块的工作时间长度大于所述 ISM模块的最大期望工作时间长度，则所述 UE 减少所述 ISM模块的业务流；如果所述不满足要求的 DR 中分配给 ISM模块的工作时间长度小于所述 ISM模块的最小期望工作时间长度，则所述 UE减少所述 LTE 模块的业务流。 In the foregoing embodiment, when it is necessary to adjust the traffic flow of the coexistence module, as in the foregoing, it may be adjusted immediately or after a predetermined period of time. The method for the UE to adjust the service flow of the coexistence module: if the working time length allocated to the LTE module in the DR that does not meet the requirement is greater than the maximum expected working time length of the LTE module, the UE decreases The service flow of the LTE module is performed; if the working time length allocated to the LTE module in the DRX that does not meet the requirement is smaller than the minimum expected working time length of the LTE module, the UE reduces the service flow of the ISM module; If the working time length of the ISM module is greater than the maximum expected working time of the ISM module, the UE reduces the service flow of the ISM module; if the DR does not meet the requirements The working time length allocated to the ISM module is less than the minimum expected working time length of the ISM module, and the UE reduces the service flow of the LTE module.

通过本实施例的方法， UE先按照现有机制向基站发送 TDM辅助信息，再确定基站根据该 TDM辅助信息为其配置的 DR 不符合要求时，通过向基站发送不满意指示或者调整其共存模块的业务流的方法，与基站交互，以便基站为其配置一个符合其要求的 DRX, 或者通过其他方式（例如发拒绝消息、发不符合要求的 DRX、将 UE 切换到符合要求的频率上、结束操作等），通过与 UE的交互达到满足 UE要求的目的。由此，优化了 DRX配置过程中终端的处理，保证了终端的 LTE模块和 ISM模块的正常工作。 With the method of the embodiment, the UE first sends the TDM auxiliary information to the base station according to the existing mechanism, and then determines that the DR configured by the base station according to the TDM auxiliary information does not meet the requirement, and sends an unsatisfactory indication to the base station or adjusts the coexistence module. The method of service flow, interacting with the base station, so that the base station configures a DRX that meets its requirements, or by other means (such as sending a reject message, sending a DRX that does not meet the requirements, switching the UE to the required frequency, and ending) Operation, etc., through the interaction with the UE to achieve the purpose of meeting the requirements of the UE. Therefore, the processing of the terminal in the DRX configuration process is optimized, and the normal operation of the LTE module and the ISM module of the terminal is ensured.

实施例 4 Example 4

本发明实施例还提供了一种非连续接收机制的配置方法，该方法是对应实施例 3 的方法的基站侧的处理。请参照图 5，该方法包括： The embodiment of the present invention further provides a configuration method of a discontinuous reception mechanism, which is a processing on the base station side corresponding to the method of Embodiment 3. Referring to FIG. 5, the method includes:

步骤 501：基站接收 UE发送的 TDM辅助信息： Step 501: The base station receives the TDM auxiliary information sent by the UE:

其中，与现有方案相同，该 TDM辅助信息包含期望的 DR 周期以及 LTE模块的工作时间。步骤 502:基站根据所述 TDM辅助信息为所述 UE配置 DRX,并将配置好的 DRX 发送给所述 UE: Wherein, the TDM auxiliary information includes the expected DR period and the working time of the LTE module, as in the existing solution. Step 502: The base station configures the DRX for the UE according to the TDM auxiliary information, and sends the configured DRX to the UE:

其中，与现有方案相同，基站根据该 TDM辅助信息可以为该 UE配置一个 DRX，在本实施例中，如前所述，称为初始 DRX。 The base station can configure a DRX for the UE according to the TDM auxiliary information. In this embodiment, as described above, it is referred to as an initial DRX.

步骤 503: 如果基站接收到 UE反馈的不满意指示，则所述基站向所述 UE发送拒绝消息，或者为所述 UE重新配置 DRX并将重新配置的 DR 发送给所述 UE，或者将所述 UE切换到其他频率上，或者结束操作。 Step 503: If the base station receives the unsatisfactory indication fed back by the UE, the base station sends a reject message to the UE, or reconfigures the DRX for the UE, and sends the reconfigured DR to the UE, or The UE switches to another frequency or ends the operation.

其中，如果基站为 UE配置的 DRX (初始 DRX)不能满足 UE的要求，则 UE可以向基站发送不满意指示或者调整其业务流。其中，如果 UE调整其业务流，则 UE 会再次向基站发送新的 TDM信息，基站收到该新的 TDM信息后的处理与步骤 501 相同，在此不再赘述。其中，如果 UE向基站发送了不满意指示消息，则基站可以通过步骤 503进行相应处理。 If the DRX (initial DRX) configured by the base station for the UE cannot meet the requirements of the UE, the UE may send an unsatisfactory indication to the base station or adjust its service flow. If the UE adjusts its service flow, the UE will send the new TDM information to the base station again. The process after the base station receives the new TDM information is the same as that of step 501, and details are not described herein. If the UE sends an unsatisfactory indication message to the base station, the base station may perform corresponding processing in step 503.

其中，如果基站向 UE 发送拒绝消息，或者为 UE 重配一个新的不符合要求的 DRX, 或者将该 UE切换到其他频率上，则基站的处理与实施例 2相同，由于在实施例 2中已经对上述处理进行了详细说明，其内容被合并于此，在此不再赘述。 If the base station sends a reject message to the UE, or re-allocates a new non-compliant DRX for the UE, or switches the UE to another frequency, the processing of the base station is the same as that of Embodiment 2, because in Embodiment 2 The above processing has been described in detail, and the contents thereof are incorporated herein, and will not be described again.

其中，如果基站结束操作，也即令 UE沿用之前的 DRX (初始 DRX)，则 UE的处理与实施例 3相同，在此不再赘述。 The processing of the UE is the same as that of the third embodiment, and the details are not described herein again.

为了使实施例 3和实施例 4的方法更加清楚易懂，以下通过 UE和基站的交互流程图对实施例 3和实施例 4进行详细说明。 In order to make the methods of Embodiment 3 and Embodiment 4 more clear and understandable, Embodiment 3 and Embodiment 4 will be described in detail below through an interaction flow diagram of the UE and the base station.

图 6是对应实施例 3和实施例 4的方法的 UE和基站侧的交互流程图，请参照图 6，该交互过程包含以下步骤： 6 is a flow chart of interaction between the UE and the base station side corresponding to the methods of Embodiment 3 and Embodiment 4. Referring to FIG. 6, the interaction process includes the following steps:

步骤 601 : UE向基站发送 TDM辅助信息。其中，该 TDM辅助信息中包含了期望的 DR 周期和 LTE模块的工作时间长度。步骤 602: 基站根据上述 TDM辅助信息，为 UE配置 DRX: Step 601: The UE sends TDM auxiliary information to the base station. The TDM auxiliary information includes a desired DR period and a working time length of the LTE module. Step 602: The base station configures the DRX for the UE according to the foregoing TDM auxiliary information:

步骤 603: 基站向 UE配置了不合适的 DRX; Step 603: The base station configures an inappropriate DRX to the UE.

步骤 604: UE向基站发送不满意指示。 Step 604: The UE sends an unsatisfactory indication to the base station.

其中，图 6是以 UE在收到不合适的 DR 后向基站发送不满意指示为例，在实际实施时，如实施例 3和实施例 4所述， UE也可以在收到不合适的 DR 后调整其业务流。 6 is an example in which the UE sends an unsatisfactory indication to the base station after receiving the inappropriate DR. In actual implementation, as described in Embodiment 3 and Embodiment 4, the UE may also receive an inappropriate DR. After adjusting its business flow.

本发明实施例还提供了一种用户设备，如下面的实施例 5所述，由于该用户设备解决问题的原理与实施例 1的方法相同，故其具体的实施可以参照实施例 1的方法的实施，重复之处不再赘述。 The embodiment of the present invention further provides a user equipment, as described in the following embodiment 5. Since the principle of the user equipment is the same as that of the first embodiment, the specific implementation may refer to the method of the first embodiment. Implementation, repetition will not be repeated.

实施例 5 Example 5

本发明实施例提供了一种用户设备（UE)。图 7是该用户设备的组成示意图，请参照图 7，该 UE包括： The embodiment of the invention provides a user equipment (UE). FIG. 7 is a schematic diagram of the composition of the user equipment. Referring to FIG. 7, the UE includes:

确定单元 71，其确定所述 UE的共存模块在一个非连续接收（DRX)周期内的期望工作时间长度端值； Determining unit 71, which determines a desired working time length end value of the coexistence module of the UE in a discontinuous reception (DRX) period;

发送单元 72，其向基站发送包含所述端值的时分复用（TDM) 辅助信息，以便基站根据所述 TDM辅助信息为所述 UE配置 DRX。 The sending unit 72 sends time division multiplexing (TDM) auxiliary information including the end value to the base station, so that the base station configures the DRX for the UE according to the TDM auxiliary information.

其中，所述共存模块为长期演进（LTE) 模块和工业科学医学（ISM) 模块，所述共存模块在一个 DRX周期内的期望工作时间长度端值为以下至少一种信息：所述 LTE模块的最大期望工作时间长度； The coexistence module is a Long Term Evolution (LTE) module and an Industrial Scientific Medicine (ISM) module, and the expected working time length of the coexistence module in one DRX cycle is at least one of the following information: Maximum expected working time length;

所述 LTE模块的最小期望工作时间长度； The minimum expected working time length of the LTE module;

所述 ISM模块的最大期望工作时间长度；以及 The maximum expected working time length of the ISM module;

所述 ISM模块的最小期望工作时间长度。 The minimum expected working time length of the ISM module.

在一个实施例中，所述确定单元 71包括： In an embodiment, the determining unit 71 includes:

记录模块 711，其记录预定时间段内所述共存模块的数据流； a recording module 711, which records a data flow of the coexistence module within a predetermined time period;

第一确定模块 712，其根据所述数据流确定所述共存模块在一个 DRX周期内的期望工作时间长度端值。 The first determining module 712 determines, according to the data flow, a desired working time length end value of the coexistence module in one DRX cycle.

第二确定模块 713，其根据所述共存模块所承载的业务的服务质量要求确定所述共存模块在一个 DR 周期内的期望工作时间长度端值。 a second determining module 713, configured to determine, according to a quality of service requirement of a service carried by the coexistence module The expected working time length end value of the coexistence module in one DR cycle.

在一个实施例中，所述 UE还包括： In an embodiment, the UE further includes:

第一处理单元 73，其在所述 UE接收到所述基站发送的拒绝消息时，调整所述共存模块的业务流，根据调整后的共存模块的业务流更新所述端值信息，然后向所述基站发送包含更新后的端值信息的 TDM辅助信息；和 /或 a first processing unit 73, when the UE receives the reject message sent by the base station, adjust a service flow of the coexistence module, update the end value information according to the service flow of the adjusted coexistence module, and then update the The base station sends TDM auxiliary information including the updated end value information; and/or

第二处理单元 74，其在所述 UE接收到所述基站发送的 DRX时，根据所述端值判断所述 DR 是否满足要求，如果不满足要求，则根据所述 DRX调整所述共存模块的业务流，根据调整后的共存模块的业务流更新所述端值信息，然后向所述基站发送包含更新后的端值信息的 TDM辅助信息。 a second processing unit 74, when the UE receives the DRX sent by the base station, determining, according to the terminal value, whether the DR meets a requirement, and if the requirement is not met, adjusting the coexistence module according to the DRX The service flow updates the end value information according to the service flow of the adjusted coexistence module, and then sends TDM auxiliary information including the updated end value information to the base station.

其中，所述第二处理单元 74在所述 DRX中分配给 LTE模块的工作时间长度大于所述 LTE模块的最大期望工作时间长度；或者，分配给 LTE模块的工作时间长度小于所述 LTE模块的最小期望工作时间长度；或者，分配给 ISM模块的工作时间长度大于所述 ISM模块的最大期望工作时间长度；或者，分配给 ISM模块的工作时间长度小于所述 ISM模块的最小期望工作时间长度时，确定所述 DR 不满足要求。 The working time length allocated by the second processing unit 74 to the LTE module in the DRX is greater than the maximum expected working time length of the LTE module; or the working time length allocated to the LTE module is smaller than that of the LTE module. The minimum expected working time length; or, the working time length allocated to the ISM module is greater than the maximum expected working time length of the ISM module; or, the working time length allocated to the ISM module is less than the minimum expected working time length of the ISM module , determine that the DR does not meet the requirements.

其中，所述第一处理单元 73在所述 UE收到所述拒绝消息后，立即调整所述共存模块的业务流或者在预定时间段后调整所述共存模块的业务流；所述第二处理单元 74在所述 UE接收到不满足要求的 DR 后，立即调整所述共存模块的业务流或者在预定时间段后调整所述共存模块的业务流。 After the UE receives the reject message, the first processing unit 73 immediately adjusts the service flow of the coexistence module or adjusts the service flow of the coexistence module after a predetermined period of time; the second process After the UE receives the DR that does not meet the requirement, the unit 74 immediately adjusts the service flow of the coexistence module or adjusts the service flow of the coexistence module after a predetermined period of time.

其中，所述第一处理单元 73或所述第二处理单元 74在所述 DR 中分配给 LTE 模块的工作时间长度大于所述 LTE模块的最大期望工作时间长度时，减少所述 LTE 模块的业务流;在所述 DRX中分配给 LTE模块的工作时间长度小于所述 LTE模块的最小期望工作时间长度时，减少所述 ISM模块的业务流；在所述 DR 中分配给 ISM 模块的工作时间长度大于所述 ISM模块的最大期望工作时间长度时，减少所述 ISM 模块的业务流；在所述 DRX中分配给 ISM模块的工作时间长度小于所述 ISM模块的最小期望工作时间长度时，减少所述 LTE模块的业务流。 The first processing unit 73 or the second processing unit 74 reduces the service of the LTE module when the working time length allocated to the LTE module in the DR is greater than the maximum expected working time length of the LTE module. a flow; when the working time length allocated to the LTE module in the DRX is less than the minimum expected working time length of the LTE module, reducing the service flow of the ISM module; and the working time length allocated to the ISM module in the DR When the maximum expected working time of the ISM module is greater than the maximum expected working time of the ISM module, when the working time length allocated to the ISM module in the DRX is less than the minimum expected working time of the ISM module, the reduction is performed. The service flow of the LTE module.

通过本实施例的 UE，将其共存模块的期望工作时间长度的端值作为 TDM辅助信息的一部分提供给基站，基站据此可以为 UE配置一个符合其要求的 DRX，或者即便基站无法为该 UE配置一个符合其要求的 DRX, 也可以通过其他方式（例如发拒绝消息、发不符合要求的 DRX、将 UE切换到符合要求的频率上），通过与 UE的交互达到满足 UE要求的目的。由此，优化了 DR 配置过程中终端的处理，保证了终端的 LTE模块和 ISM模块的正常工作。 The UE of the present embodiment provides the end value of the expected working time length of the coexistence module to the base station as part of the TDM auxiliary information, and the base station can configure the UE with a DRX that meets its requirements, or even if the base station cannot be the UE. Configure a DRX that meets its requirements. You can also use other methods (such as sending a reject message, sending a DRX that does not meet the requirements, and switching the UE to the required frequency). Meet each other to meet the requirements of the UE. Therefore, the processing of the terminal in the DR configuration process is optimized, and the normal operation of the LTE module and the ISM module of the terminal is ensured.

本发明实施例还提供了一种基站，如下面的实施例 6所述，由于该基站解决问题的原理与实施例 2相同，因此其具体的实施可以参照实施例 2的方法的实施，重复之处不再赘述。 The embodiment of the present invention further provides a base station, as described in Embodiment 6 below. Since the principle of solving the problem is the same as that of Embodiment 2, the specific implementation may refer to the implementation of the method in Embodiment 2, and the method is repeated. I won't go into details here.

实施例 6 Example 6

本发明实施例提供了一种基站。图 8是该基站的组成示意图，请参照图 8，该基站包括： The embodiment of the invention provides a base station. FIG. 8 is a schematic diagram of the composition of the base station. Referring to FIG. 8, the base station includes:

接收单元 81，其接收 UE发送的包括其共存模块在一个 DR 周期内的期望工作时间长度端值的 TDM辅助信息； The receiving unit 81 receives the TDM auxiliary information sent by the UE, including the end of the expected working time length of the coexistence module in one DR period;

第一处理单元 82，其根据所述 TDM辅助信息为所述 UE配置 DR 并将所述 DRX 发送给所述 UE。 The first processing unit 82 configures a DR for the UE according to the TDM auxiliary information and sends the DRX to the UE.

其中，所述共存模块为 LTE模块和 ISM模块，所述共存模块在一个 DRX周期内的期望工作时间长度端值为以下至少一种信息： The coexistence module is an LTE module and an ISM module, and the expected working time length of the coexistence module in one DRX cycle is at least one of the following information:

所述 LTE模块的最大期望工作时间长度； The maximum expected working time length of the LTE module;

其中，所述第一处理单元 82用于根据所述 TDM辅助信息中的端值信息，为所述 UE的 LTE模块和 /或 ISM模块分配在一个 DRX周期内的工作时间；其中，分配给 LTE模块的工作时间长度小于所述 LTE模块的最大期望工作时间长度值；和 /或，分配给 LTE模块的工作时间长度大于所述 LTE模块的最小期望工作时间长度值；和 / 或，分配 ISM模块的工作时间长度小于所述 ISM模块的最大期望工作时间长度值；和 /或，分配给 ISM模块的工作时间长度大于上述 LTE模块的最小期望工作时间长度值。 The first processing unit 82 is configured to allocate, according to the end value information in the TDM auxiliary information, an operating time in a DRX cycle for the LTE module and/or the ISM module of the UE; where, the LTE is allocated to the LTE. The working time length of the module is less than the maximum expected working time length value of the LTE module; and/or the working time length allocated to the LTE module is greater than the minimum expected working time length value of the LTE module; and/or, the ISM module is allocated The working time length is less than the maximum expected working time length value of the ISM module; and/or the working time length allocated to the ISM module is greater than the minimum expected working time length value of the LTE module.

其中，所述基站还包括： The base station further includes:

判断单元 83，其根据所述接收单元 81接收到的 TDM辅助信息判断能否为 UE 配置符合要求的 DRX: The determining unit 83 determines whether the DRX that meets the requirements can be configured for the UE according to the TDM auxiliary information received by the receiving unit 81:

第二处理单元 84，其在所述判断单元 S3判断为否时，向所述 UE发送拒绝消息，或者为所述 UE配置不能满足要求的 DRX并将该不能满足要求的 DR 发送给所述 UE, 或者将所述 UE切换到能满足要求的频率上。 a second processing unit 84, when the determining unit S3 determines NO, sends a reject message to the UE, or configures the UE to fail to meet the required DRX, and sends the DR that cannot meet the requirement to the The UE, or the UE is switched to a frequency that satisfies the requirements.

通过本实施例的基站，在接收到 UE发送的包含其共存模块的期望工作时间长度的端值的 TDM辅助信息后，据此为 UE配置一个符合其要求的 DRX, 或者通过其他方式（例如发拒绝消息、发不符合要求的 DRX、将 UE切换到符合要求的频率上），通过与 UE的交互达到满足 UE要求的目的。由此，优化了 DR 配置过程中终端的处理，保证了终端的 LTE模块和 ISM模块的正常工作。 After receiving the TDM auxiliary information sent by the UE and including the terminal value of the expected working time length of the coexistence module, the base station according to the embodiment configures the DRX according to the requirement for the UE, or by other means (for example, sending The message is rejected, the DRX that does not meet the requirements is sent, and the UE is switched to the frequency that meets the requirements. The interaction with the UE is used to achieve the purpose of satisfying the requirement of the UE. Therefore, the processing of the terminal in the DR configuration process is optimized, and the normal operation of the LTE module and the ISM module of the terminal is ensured.

本发明实施例还提供了一种用户设备，如下面的实施例 7所述，由于该用户设备解决问题的原理与实施例 3的方法相同，故其具体的实施可以参照实施例 3的方法的实施，重复之处不再赘述。 The embodiment of the present invention further provides a user equipment, as described in Embodiment 7 below. Since the principle of the user equipment is the same as that of the third embodiment, the specific implementation may refer to the method of Embodiment 3. Implementation, repetition will not be repeated.

实施例 7 Example 7

本发明实施例还提供了一种 UE。图 9是该 UE的组成示意图，请参照图 9，该 UE包括： An embodiment of the present invention further provides a UE. FIG. 9 is a schematic diagram of the composition of the UE. Referring to FIG. 9, the UE includes:

发送单元 91，其向基站发送 TDM辅助信息，以便基站根据所述 TDM辅助信息为所述 UE配置初始 DRX; The sending unit 91, which sends TDM auxiliary information to the base station, so that the base station configures the initial DRX for the UE according to the TDM auxiliary information;

接收单元 92，其接收基站反馈的初始 D X; The receiving unit 92 receives the initial D X fed back by the base station;

第一判断单元 93，其根据预先确定的其共存模块在一个 DR 周期内的期望工作时间长度端值，判断所述初始 DR 是否满足要求； The first determining unit 93 determines whether the initial DR meets the requirement according to a predetermined end value of the expected working time of the coexistence module in a DR period;

第一处理单元 94，其在所述第一判断单元 93判断为所述初始 DR 不满足要求时，向所述基站发送不满意指示或者调整其共存模块的业务流。 The first processing unit 94, when the first determining unit 93 determines that the initial DR does not meet the requirement, sends an unsatisfactory indication to the base station or adjusts a service flow of the coexistence module.

其中，所述共存模块为 LTE模块和 ISM模块，所述共存模块在一个 DR 周期内的期望工作时间长度端值为以下至少一种信息： The coexistence module is an LTE module and an ISM module, and the expected working time length of the coexistence module in one DR period is at least one of the following information:

其中，所述第一判断单元 93用于在所述初始 DR 中分配给 LTE模块的工作时间长度大于所述 LTE模块的最大期望工作时间长度；或者，分配给 LTE模块的工作时间长度小于所述 LTE模块的最小期望工作时间长度；或者，分配给 ISM模块的工作时间长度大于所述 ISM模块的最大期望工作时间长度；或者，分配给 ISM模块的工作时间长度小于所述 ISM模块的最小期望工作时间长度时，确定所述初始 DRX不满足要求。 The working time length allocated by the first determining unit 93 to the LTE module in the initial DR is greater than the maximum expected working time length of the LTE module; or the working time length allocated to the LTE module is less than the The minimum expected working time length of the LTE module; or, the working time length allocated to the ISM module is greater than the maximum expected working time length of the ISM module; or, the work assigned to the ISM module When the length of time is less than the minimum expected working time length of the ISM module, it is determined that the initial DRX does not meet the requirement.

在一个实施例中，该 UE还包括： In an embodiment, the UE further includes:

第二判断单元 95，其根据预先确定的其共存模块在一个 DR 周期内的期望工作时间长度端值，判断是否接收到满足要求的 DRX; a second determining unit 95, which determines whether the DRX that meets the requirement is received according to a predetermined end value of the expected working time of the coexistence module in a DR period;

第二处理单元 96，其在所述第二判断单元 95判断为没有接收到 DRX或者接收到的 DR 不能满足要求时，执行所述初始 DR 或者执行接收到的不满足要求的 DRX，并向所述基站发送不满意指示或者调整其共存模块的业务流。 a second processing unit 96, when the second determining unit 95 determines that the DRX is not received or the received DR cannot meet the requirement, performing the initial DR or performing the received DRX that does not satisfy the requirement, and The base station sends an unsatisfactory indication or adjusts the service flow of its coexistence module.

其中，所述第二判断单元 95用于在所述接收到的 DRX中分配给 LTE模块的工作时间长度大于所述 LTE模块的最大期望工作时间长度；或者，分配给 LTE模块的工作时间长度小于所述 LTE模块的最小期望工作时间长度；或者，分配给 ISM模块的工作时间长度大于所述 ISM模块的最大期望工作时间长度；或者，分配给 ISM模块的工作时间长度小于所述 ISM模块的最小期望工作时间长度时，确定所述接收到的 DR 不满足要求。 The working time length allocated by the second determining unit 95 to the LTE module in the received DRX is greater than the maximum expected working time length of the LTE module; or the working time length allocated to the LTE module is less than The minimum expected working time length of the LTE module; or, the working time length allocated to the ISM module is greater than the maximum expected working time length of the ISM module; or the working time length allocated to the ISM module is smaller than the minimum of the ISM module. When the working time length is expected, it is determined that the received DR does not satisfy the requirement.

确定单元 97，其确定所述 UE的共存模块在一个 DRX周期内的期望工作时间长度端值。 The determining unit 97 determines the expected working time length end value of the coexistence module of the UE in one DRX cycle.

在一个实施例中，所述确定单元 97包括： In an embodiment, the determining unit 97 includes:

记录模块 971，其记录预定时间段内所述共存模块的数据流； a recording module 971, which records a data stream of the coexistence module within a predetermined time period;

第一确定模块 972，其根据所述数据流确定所述共存模块在一个 DR 周期内的期望工作时间长度端值。 The first determining module 972 determines the expected working time length end value of the coexistence module in one DR period according to the data flow.

第二确定模块 973，其根据所述共存模块所承载的业务的服务质量要求确定所述共存模块在一个 DR 周期内的期望工作时间长度端值。 The second determining module 973 determines the expected working time length end value of the coexistence module in one DR period according to the quality of service requirement of the service carried by the coexistence module.

其中，所述不满意指示包含不满意原因，所述不满意原因包括：配置的 DRX中分配给 LTE模块的工作时间大于所述 LTE模块的最大期望工作时间长度，或分配给 LTE模块的工作时间小于所述 LTE模块的最小期望工作时间长度，或分配给 ISM模块的工作时间大于所述 ISM模块的最大期望工作时间长度，或分配给 ISM模块的工作时间小于所述 ISM模块的最小期望工作时间长度。其中，所述第一处理单元 94或者所述第二处理单元 96在所述 UE接收到所述不满足要求的 DR 后，立即调整所述共存模块的业务流或者在预定时间段后调整所述共存模块的业务流。 The unsatisfactory indication includes the reason for the dissatisfaction, and the unsatisfactory reason includes: the working time allocated to the LTE module in the configured DRX is greater than the maximum expected working time of the LTE module, or the working time allocated to the LTE module. Less than the minimum expected working time of the LTE module, or the working time allocated to the ISM module is greater than the maximum expected working time of the ISM module, or the working time allocated to the ISM module is less than the minimum expected working time of the ISM module. length. After the UE receives the DR that does not meet the requirement, the first processing unit 94 or the second processing unit 96 immediately adjusts the service flow of the coexistence module or adjusts the predetermined time period. The business flow of the coexistence module.

其中，所述第一处理单元 94或者所述第二处理单元 96在所述不满足要求的 DRX 中分配给 LTE模块的工作时间长度大于所述 LTE模块的最大期望工作时间长度时，减少所述 LTE模块的业务流;在所述不满足要求的 DRX中分配给 LTE模块的工作时间长度小于所述 LTE模块的最小期望工作时间长度时，减少所述 ISM模块的业务流；在所述不满足要求的 DR 中分配给 ISM模块的工作时间长度大于所述 ISM模块的最小期望工作时间长度时，减少所述 ISM模块的业务流；在所述不满足要求的 DRX 中分配给 ISM模块的工作时间长度小于所述 ISM模块的最小期望工作时间长度时，减少所述 LTE模块的业务流。 The first processing unit 94 or the second processing unit 96 reduces the working time length allocated to the LTE module in the DRX that does not meet the requirement is greater than the maximum expected working time length of the LTE module, a service flow of the LTE module; when the working time length allocated to the LTE module in the DRX that does not meet the requirement is smaller than the minimum expected working time length of the LTE module, reducing the service flow of the ISM module; When the working time length allocated to the ISM module in the required DR is greater than the minimum expected working time length of the ISM module, the service flow of the ISM module is reduced; and the working time allocated to the ISM module in the DRX that does not meet the requirement is required. When the length is less than the minimum expected working time length of the ISM module, the service flow of the LTE module is reduced.

通过本实施例的 UE，先按照现有机制向基站发送 TDM辅助信息，再确定基站根据该 TDM辅助信息为其配置的 DRX不符合要求时，通过向基站发送不满意指示或者调整其共存模块的业务流的方法，与基站交互，以便基站为其配置一个符合其要求的 DRX, 或者通过其他方式（例如发拒绝消息、发不符合要求的 DRX、将 UE切换到符合要求的频率上、结束操作等），通过与 UE的交互达到满足 UE要求的目的。由此，优化了 DR 配置过程中终端的处理，保证了终端的 LTE模块和 ISM模块的正常工作。 The UE in this embodiment first sends TDM auxiliary information to the base station according to the existing mechanism, and then determines that the DRX configured by the base station according to the TDM auxiliary information does not meet the requirement, and sends an unsatisfactory indication to the base station or adjusts the coexistence module thereof. The method of the service flow, interacting with the base station, so that the base station configures a DRX that meets its requirements, or by other means (such as sending a reject message, sending a DRX that does not meet the requirements, switching the UE to the required frequency, ending the operation) Etc.), through the interaction with the UE to achieve the purpose of meeting the requirements of the UE. Therefore, the processing of the terminal in the DR configuration process is optimized, and the normal operation of the LTE module and the ISM module of the terminal is ensured.

本发明实施例还提供了一种基站，如下面的实施例 8所述，由于该基站解决问题的原理与实施例 4相同，因此其具体的实施可以参照实施例 4的方法的实施，重复之处不再赘述。 The embodiment of the present invention further provides a base station, as described in Embodiment 8 below. Since the principle of solving the problem is the same as that of Embodiment 4, the specific implementation may refer to the implementation of the method in Embodiment 4, and the method is repeated. I won't go into details here.

实施例 8 Example 8

本发明实施例提供了一种基站。图 10是该基站的组成示意图，请参照图 10，该基站包括： The embodiment of the invention provides a base station. FIG. 10 is a schematic diagram of the composition of the base station. Referring to FIG. 10, the base station includes:

接收单元 1001，其接收 UE发送的 TDM辅助信息； The receiving unit 1001 receives the TDM auxiliary information sent by the UE;

第一处理单元 1002，其根据所述 TDM辅助信息为所述 UE配置 DRX，并将配置好的 DRX发送给所述 UE; The first processing unit 1002, configured to configure the DRX for the UE according to the TDM auxiliary information, and send the configured DRX to the UE;

第二处理单元 1003，其在所述基站接收到 UE反馈的不满意指示时，向所述 UE 发送拒绝消息，或者为所述 UE重新配置 DRX并将重新配置的 DR 发送给所述 UE，或者将所述 UE切换到其他频率上，或者结束操作。 a second processing unit 1003, when the base station receives an unsatisfactory indication fed back by the UE, sends a reject message to the UE, or reconfigures the DRX for the UE, and sends the reconfigured DR to the UE, Either switch the UE to another frequency or end the operation.

通过本实施例的基站，在接收到 UE按照现有机制发送的 TDM辅助信息后，为该 UE配置 DRX，在收到 UE发送的不满意指示后，通过向 UE发送拒绝消息、或发送重配的不符合要求的 DRX、或将 UE切换到符合要求的频率上、或结束操作等，通过与 UE的交互达到满足 UE要求的目的。由此，优化了 DR 配置过程中终端的处理，保证了终端的 LTE模块和 ISM模块的正常工作。 After receiving the TDM auxiliary information sent by the UE according to the existing mechanism, the base station of the present embodiment configures the DRX for the UE, and after receiving the dissatisfied indication sent by the UE, sends a reject message to the UE, or sends a reconfiguration. The non-compliant DRX, or switching the UE to the required frequency, or ending the operation, etc., achieves the purpose of satisfying the UE requirement through interaction with the UE. Therefore, the processing of the terminal in the DR configuration process is optimized, and the normal operation of the LTE module and the ISM module of the terminal is ensured.

本发明实施例还提供了一种通信***，在一个实施例中，该通信***包括实施例 5的用户设备和实施例 6的基站，在另外一个实施例中，该通信***包括实施例 7的用户设备和实施例 8的基站，其内容被合并于此，在此不再赘述。 The embodiment of the present invention further provides a communication system. In one embodiment, the communication system includes the user equipment of Embodiment 5 and the base station of Embodiment 6. In another embodiment, the communication system includes Embodiment 7 The content of the user equipment and the base station of Embodiment 8 is incorporated herein, and details are not described herein again.

本发明实施例还提供了一种计算机可读程序，其中当在终端设备中执行该程序时，该程序使得计算机在所述终端设备中执行实施例 1或实施例 3所述的非连续接收的配置方法。 The embodiment of the present invention further provides a computer readable program, wherein when the program is executed in a terminal device, the program causes the computer to perform the discontinuous reception described in Embodiment 1 or Embodiment 3 in the terminal device. Configuration method.

本发明实施例还提供了一种存储有计算机可读程序的存储介质，其中该计算机可读程序使得计算机在终端设备中执行实施例 1或实施例 3所述的非连续接收的配置方法。 The embodiment of the present invention further provides a storage medium storing a computer readable program, wherein the computer readable program causes the computer to execute the configuration method of discontinuous reception described in Embodiment 1 or Embodiment 3 in the terminal device.

本发明实施例还提供了一种计算机可读程序，其中当在基站中执行该程序时，该程序使得计算机在所述基站中执行实施例 2或实施例 4所述的非连续接收的配置方法。 The embodiment of the present invention further provides a computer readable program, wherein when the program is executed in a base station, the program causes the computer to execute the configuration method of discontinuous reception described in Embodiment 2 or Embodiment 4 in the base station .

本发明实施例还提供了一种存储有计算机可读程序的存储介质，其中该计算机可读程序使得计算机在基站中执行实施例 2或实施例 4所述的非连续接收的配置方法。 The embodiment of the present invention further provides a storage medium storing a computer readable program, wherein the computer readable program causes the computer to execute the configuration method of discontinuous reception described in Embodiment 2 or Embodiment 4 in a base station.

本发明以上的装置和方法可以由硬件实现，也可以由硬件结合软件实现。本发明涉及这样的计算机可读程序，当该程序被逻辑部件所执行时，能够使该逻辑部件实现上文所述的装置或构成部件，或使该逻辑部件实现上文所述的各种方法或步骤。逻辑部件例如现场可编程逻辑部件、微处理器、计算机中使用的处理器等。本发明还涉及用于存储以上程序的存储介质，如硬盘、磁盘、光盘、 DVD、 flash存储器等。 The above apparatus and method of the present invention may be implemented by hardware, or may be implemented by hardware in combination with software. The present invention relates to a computer readable program that, when executed by a logic component, enables the logic component to implement the apparatus or components described above, or to cause the logic component to implement the various methods described above Or steps. Logic components such as field programmable logic components, microprocessors, processors used in computers, and the like. The present invention also relates to a storage medium for storing the above program, such as a hard disk, a magnetic disk, an optical disk, a DVD, a flash memory, or the like.

以上结合具体的实施方式对本发明进行了描述，但本领域技术人员应该清楚，这些描述都是示例性的，并不是对本发明保护范围的限制。本领域技术人员可以根据本发明的精神和原理对本发明做出各种变型和修改，这些变型和修改也在本发明的范围内。 The present invention has been described in connection with the specific embodiments thereof, and it should be understood by those skilled in the art that these descriptions are not intended to limit the scope of the invention. A person skilled in the art can make various modifications and changes to the invention in accordance with the spirit and the principles of the invention, which are also within the scope of the invention.

Claims

权利要求书 claims

1、一种非连续接收机制的配置方法，其中，所述方法包括： 1. A configuration method for a discontinuous reception mechanism, wherein the method includes:

用户设备（UE ) 确定其共存模块在一个非连续接收（DRX) 周期内的期望工作时间长度端值； The user equipment (UE) determines the expected operating time limit of its coexistence module within a discontinuous reception (DRX) cycle;

所述 UE向基站发送包含所述端值的时分复用（TDM)辅助信息，以便基站根据所述 TDM辅助信息为所述 UE配置 DRX。 The UE sends time division multiplexing (TDM) auxiliary information including the end value to the base station, so that the base station configures DRX for the UE according to the TDM auxiliary information.

2、根据权利要求 1所述的方法，其中，所述共存模块为长期演进（LTE)模块和工业科学医学（ISM) 模块，所述共存模块在一个 DRX周期内的期望工作时间长度端值为以下至少一种信息- 所述 LTE模块的最大期望工作时间长度； 2. The method according to claim 1, wherein the coexistence module is a Long Term Evolution (LTE) module and an Industrial Science and Medicine (ISM) module, and the expected working time length end value of the coexistence module within a DRX cycle is At least one of the following information - the maximum expected operating time length of the LTE module;

所述 ISM模块的最大期望工作时间长度；以及 the maximum expected length of operation of the ISM module; and

所述 ISM模块的最小期望工作时间长度。 The minimum expected operating time of the ISM module.

3、根据权利要求 2所述的方法，其中，所述 UE确定其共存模块在一个 DR 周期内的期望工作时间长度端值，包括： 3. The method according to claim 2, wherein the UE determines the expected working time length end value of its coexistence module within a DR cycle, including:

UE记录预定时间段内所述共存模块的数据流； The UE records the data flow of the coexistence module within a predetermined time period;

UE根据所述数据流确定所述共存模块在一个 DRX周期内的期望工作时间长度端值。 The UE determines the expected working time length end value of the coexistence module within a DRX cycle according to the data flow.

4、根据权利要求 2所述的方法，其中，所述 UE确定其共存模块在一个 DR 周期内的期望工作时间长度端值，包括： 4. The method according to claim 2, wherein the UE determines the expected working time length end value of its coexistence module within a DR cycle, including:

UE 根据所述共存模块所承载的业务的服务质量要求确定所述共存模块在一个 DRX周期内的期望工作时间长度端值。 The UE determines the expected working time length end value of the coexistence module within a DRX cycle according to the service quality requirements of the services carried by the coexistence module.

5、根据权利要求 2所述的方法，其中，所述方法还包括： 5. The method according to claim 2, wherein the method further includes:

如果所述 UE接收到所述基站发送的拒绝消息，则所述 UE调整所述共存模块的业务流，根据调整后的共存模块的业务流更新所述端值信息，然后向所述基站发送包含更新后的端值信息的 TDM辅助信息： If the UE receives the rejection message sent by the base station, the UE adjusts the service flow of the coexistence module, updates the end value information according to the adjusted service flow of the coexistence module, and then sends a message containing TDM auxiliary information of updated terminal value information:

如果所述 UE接收到所述基站发送的 DRX, 则所述 UE根据所述端值判断所述 DR 是否满足要求，如果不满足要求，则所述 UE根据所述 DR 调整所述共存模块的业务流，根据调整后的共存模块的业务流更新所述端值信息，然后向所述基站发送包含更新后的端值信息的 TDM辅助信息。 If the UE receives the DRX sent by the base station, the UE determines whether the DR meets the requirements based on the end value. If the requirements are not met, the UE adjusts the coexistence module based on the DR the service flow of the coexistence module, update the terminal value information according to the adjusted service flow of the coexistence module, and then send TDM auxiliary information including the updated terminal value information to the base station.

6、根据权利要求 5所述的方法，其中，如果所述 DR 中分配给 LTE模块的工作时间长度大于所述 LTE模块的最大期望工作时间长度；或者，分配给 LTE模块的工作时间长度小于所述 LTE模块的最小期望工作时间长度；或者，分配给 ISM模块的工作时间长度大于所述 ISM模块的最大期望工作时间长度；或者，分配给 ISM模块的工作时间长度小于所述 ISM模块的最小期望工作时间长度，则所述 UE确定所述 DR 不满足要求。 6. The method according to claim 5, wherein if the working time length allocated to the LTE module in the DR is greater than the maximum expected working time length of the LTE module; or, the working time length allocated to the LTE module is less than the The minimum expected working time length of the LTE module; or, the working time length allocated to the ISM module is greater than the maximum expected working time length of the ISM module; or, the working time length allocated to the ISM module is less than the minimum expected working time length of the ISM module If the working time length is longer, the UE determines that the DR does not meet the requirements.

7、根据权利要求 5所述的方法，其中，所述 UE在收到所述拒绝消息或所述不满足要求的 DRX后，立即调整所述共存模块的业务流或者在预定时间段后调整所述共存模块的业务流。 7. The method according to claim 5, wherein, after receiving the rejection message or the DRX that does not meet the requirements, the UE immediately adjusts the service flow of the coexistence module or adjusts the service flow after a predetermined time period. Describe the business flow of the coexistence module.

8、根据权利要求 7所述的方法，其中，所述 UE调整所述共存模块的业务流包括: 如果所述 DR 中分配给 LTE模块的工作时间长度大于所述 LTE模块的最大期望工作时间长度，则所述 UE减少所述 LTE模块的业务流； 8. The method according to claim 7, wherein the UE adjusting the service flow of the coexistence module includes: if the working time length allocated to the LTE module in the DR is greater than the maximum expected working time length of the LTE module , then the UE reduces the service flow of the LTE module;

如果所述 DR 中分配给 LTE模块的工作时间长度小于所述 LTE模块的最小期望工作时间长度，则所述 UE减少所述 ISM模块的业务流； If the working time length allocated to the LTE module in the DR is less than the minimum expected working time length of the LTE module, then the UE reduces the service flow of the ISM module;

如果所述 DR 中分配给 ISM模块的工作时间长度大于所述 ISM模块的最大期望工作时间长度，则所述 UE减少所述 ISM模块的业务流； If the working time length allocated to the ISM module in the DR is greater than the maximum expected working time length of the ISM module, then the UE reduces the service flow of the ISM module;

如果所述 DR 中分配给 ISM模块的工作时间长度小于所述 ISM模块的最小期望工作时间长度，则所述 UE减少所述 LTE模块的业务流。 If the working time length allocated to the ISM module in the DR is less than the minimum expected working time length of the ISM module, the UE reduces the service flow of the LTE module.

9、一种非连续接收机制的配置方法，其中，所述方法包括： 9. A configuration method for a discontinuous reception mechanism, wherein the method includes:

基站接收 UE发送的包括其共存模块在一个 DR 周期内的期望工作时间长度端值的 TDM辅助信息； The base station receives the TDM auxiliary information sent by the UE including the end value of the expected operating time length of its coexistence module within a DR cycle;

基站根据所述 TDM辅助信息为所述 UE配置 DRX。 The base station configures DRX for the UE according to the TDM assistance information.

10、根据权利要求 9所述的方法，其中，所述共存模块为 LTE模块和 ISM模块，所述共存模块在一个 DR 周期内的期望工作时间长度端值为以下至少一种信息：所述 LTE模块的最大期望工作时间长度： 10. The method according to claim 9, wherein the coexistence module is an LTE module and an ISM module, and the expected working time length end value of the coexistence module within a DR cycle is at least one of the following information: the LTE Maximum expected working time of the module:

所述 ISM模块的最大期望工作时间长度；以及所述 ISM模块的最小期望工作时间长度。 the maximum expected length of operation of the ISM module; and The minimum expected working time length of the ISM module.

11、根据权利要求 10所述的方法，其中，基站根据所述 TDM辅助信息为所述 UE配置 DRX, 包括： 11. The method according to claim 10, wherein the base station configures DRX for the UE according to the TDM assistance information, including:

根据所述 TDM辅助信息中的端值信息，为所述 UE的 LTE模块和 /或 ISM模块分配在一个 DR 周期内的工作时间； According to the terminal value information in the TDM auxiliary information, allocate the working time within a DR cycle to the LTE module and/or ISM module of the UE;

其中，分配给 LTE模块的工作时间长度小于所述 LTE模块的最大期望工作时间长度值；和 /或，分配给 LTE模块的工作时间长度大于所述 LTE模块的最小期望工作时间长度值；和 /或，分配 ISM模块的工作时间长度小于所述 ISM模块的最大期望工作时间长度值；和 /或，分配给 ISM模块的工作时间长度大于上述 LTE模块的最小期望工作时间长度值。 Wherein, the working time length allocated to the LTE module is less than the maximum expected working time length value of the LTE module; and/or, the working time length allocated to the LTE module is greater than the minimum expected working time length value of the LTE module; and/or Or, the working time length allocated to the ISM module is less than the maximum expected working time length value of the ISM module; and/or, the working time length allocated to the ISM module is greater than the minimum expected working time length value of the above-mentioned LTE module.

12、根据权利要求 9所述的方法，其中，基站根据所述 TDM辅助信息为所述 UE 配置 DRX之前，所述方法还包括： 12. The method according to claim 9, wherein before the base station configures DRX for the UE according to the TDM assistance information, the method further includes:

基站根据所述 TDM辅助信息判断能否为 UE配置符合要求的 DRX; The base station determines whether it can configure DRX that meets the requirements for the UE based on the TDM auxiliary information;

如果不能，则所述基站向所述 UE发送拒绝消息，或者为所述 UE配置不能满足要求的 DR 并将该不能满足要求的 DR 发送给所述 UE, 或者将所述 UE切换到能满足要求的频率上。 If not, the base station sends a rejection message to the UE, or configures a DR that cannot meet the requirements for the UE and sends the DR that cannot meet the requirements to the UE, or switches the UE to a DR that can meet the requirements. on the frequency.

13、一种非连续接收机制的配置方法，其中，所述方法包括： 13. A method for configuring a discontinuous reception mechanism, wherein the method includes:

UE向基站发送 TDM辅助信息，以便基站根据所述 TDM辅助信息为所述 UE配置初始 DRX; The UE sends TDM assistance information to the base station, so that the base station configures initial DRX for the UE according to the TDM assistance information;

UE接收基站反馈的初始 DRX, 根据预先确定的其共存模块在一个 DR 周期内的期望工作时间长度端值，判断所述初始 DR 是否满足要求； The UE receives the initial DRX fed back by the base station, and determines whether the initial DR meets the requirements based on the predetermined expected working time length end value of its coexistence module within a DR cycle;

如果所述初始 DR 不满足要求，则所述 UE向所述基站发送不满意指示或者调整其共存模块的业务流。 If the initial DR does not meet the requirements, the UE sends a dissatisfaction indication to the base station or adjusts the service flow of its coexistence module.

14、根据权利要求 13所述的方法，其中，所述共存模块为 LTE模块和 ISM模块，所述共存模块在一个 DR 周期内的期望工作时间长度端值为以下至少一种信息：所述 LTE模块的最大期望工作时间长度； 14. The method according to claim 13, wherein the coexistence module is an LTE module and an ISM module, and the expected working time length end value of the coexistence module within a DR cycle is at least one of the following information: the LTE The maximum expected working time of the module;

所述 LTE模块的最小期望工作时间长度： The minimum expected operating time length of the LTE module:

15、根据权利要求 14所述的方法，其中，如果所述初始 DRX中分配给 LTE模块的工作时间长度大于所述 LTE模块的最大期望工作时间长度；或者，分配给 LTE模块的工作时间长度小于所述 LTE模块的最小期望工作时间长度；或者，分配给 ISM 模块的工作时间长度大于所述 ISM模块的最大期望工作时间长度；或者，分配给 ISM 模块的工作时间长度小于所述 ISM模块的最小期望工作时间长度，则所述 UE确定所述初始 DR 不满足要求。 15. The method according to claim 14, wherein, if the working time length allocated to the LTE module in the initial DRX is greater than the maximum expected working time length of the LTE module; or, the working time length allocated to the LTE module is less than The minimum expected working time length of the LTE module; or, the working time length allocated to the ISM module is greater than the maximum expected working time length of the ISM module; or, the working time length allocated to the ISM module is less than the minimum expected working time length of the ISM module If the working time length is expected, the UE determines that the initial DR does not meet the requirements.

16、根据权利要求 14所述的方法，其中，所述方法还包括： 16. The method according to claim 14, wherein the method further includes:

UE根据预先确定的其共存模块在一个 DR 周期内的期望工作时间长度端值，判断是否接收到满足要求的 DRX; The UE determines whether it has received DRX that meets the requirements based on the predetermined expected working time length end value of its coexistence module within a DR cycle;

如果没有接收到 DRX或者接收到的 DR 不能满足要求，则所述 UE执行所述初始 DRX或者执行接收到的不满足要求的 DRX,并向所述基站发送不满意指示或者调整其共存模块的业务流。 If DRX is not received or the received DR cannot meet the requirements, the UE performs the initial DRX or performs the received DRX that does not meet the requirements, and sends an unsatisfactory indication to the base station or adjusts the services of its coexistence module. flow.

17、根据权利要求 16所述的方法，其中，如果所述接收到的 DR 中分配给 LTE 模块的工作时间长度大于所述 LTE模块的最大期望工作时间长度；或者，分配给 LTE 模块的工作时间长度小于所述 LTE模块的最小期望工作时间长度；或者，分配给 ISM 模块的工作时间长度大于所述 ISM模块的最大期望工作时间长度；或者，分配给 ISM 模块的工作时间长度小于所述 ISM模块的最小期望工作时间长度，则所述 UE确定所述接收到的 DR 不满足要求。 17. The method according to claim 16, wherein, if the working time length allocated to the LTE module in the received DR is greater than the maximum expected working time length of the LTE module; or, the working time allocated to the LTE module The length is less than the minimum expected working time length of the LTE module; or the working time length allocated to the ISM module is greater than the maximum expected working time length of the ISM module; or the working time length allocated to the ISM module is less than the ISM module the minimum expected working time length, the UE determines that the received DR does not meet the requirements.

18、根据权利要求 13所述的方法，其中，所述方法还包括： 18. The method according to claim 13, wherein the method further includes:

UE确定其共存模块在一个 DR 周期内的期望工作时间长度端值。 The UE determines the end value of the expected operating time length of its coexistence module within a DR cycle.

19、根据权利要求 18所述的方法，其中，所述 UE确定其共存模块在一个 DRX 周期内的期望工作时间长度端值，包括： 19. The method according to claim 18, wherein the UE determines the expected working time length end value of its coexistence module within a DRX cycle, including:

20、根据权利要求 18所述的方法，其中，所述 UE确定其共存模块在一个 DRX 周期内的期望工作时间长度端值，包括： 20. The method according to claim 18, wherein the UE determines the expected working time length end value of its coexistence module within a DRX cycle, including:

UE 根据所述共存模块所承载的业务的服务质量要求确定所述共存模块在一个 DR 周期内的期望工作时间长度端值。 The UE determines the expected working time length end value of the coexistence module within a DR cycle according to the service quality requirements of the services carried by the coexistence module.

21、根据权利要求 14或 16所述的方法，其中，所述不满意指示包含不满意原因，所述不满意原因包括： 21. The method according to claim 14 or 16, wherein the dissatisfaction indication includes dissatisfaction reasons, and the dissatisfaction reasons include:

配置的 DR 中分配给 LTE模块的工作时间大于所述 LTE模块的最大期望工作时间长度，或分配给 LTE模块的工作时间小于所述 LTE模块的最小期望工作时间长度，或分配给 ISM模块的工作时间大于所述 ISM模块的最大期望工作时间长度，或分配给 ISM模块的工作时间小于所述 ISM模块的最小期望工作时间长度。 The working time allocated to the LTE module in the configured DR is greater than the maximum expected working time of the LTE module, or the working time allocated to the LTE module is less than the minimum expected working time of the LTE module, or the work allocated to the ISM module The time is greater than the maximum expected working time length of the ISM module, or the working time allocated to the ISM module is less than the minimum expected working time length of the ISM module.

22、根据权利要求 14或 16所述的方法，其中，所述 UE在收到所述不满足要求的 DR 后，立即调整所述共存模块的业务流或者在预定时间段后调整所述共存模块的业务流。 22. The method according to claim 14 or 16, wherein, after receiving the DR that does not meet the requirements, the UE immediately adjusts the service flow of the coexistence module or adjusts the coexistence module after a predetermined period of time. business flow.

23、根据权利要求 22所述的方法，其中，所述 UE调整所述共存模块的业务流包括： 23. The method according to claim 22, wherein the UE adjusting the service flow of the coexistence module includes:

如果所述不满足要求的 DR 中分配给 LTE模块的工作时间长度大于所述 LTE模块的最大期望工作时间长度，贝 lj所述 UE减少所述 LTE模块的业务流； If the working time length allocated to the LTE module in the DR that does not meet the requirements is greater than the maximum expected working time length of the LTE module, the UE reduces the service flow of the LTE module;

如果所述不满足要求的 DR 中分配给 LTE模块的工作时间长度小于所述 LTE模块的最小期望工作时间长度，则所述 UE减少所述 ISM模块的业务流； If the working time length allocated to the LTE module in the DR that does not meet the requirements is less than the minimum expected working time length of the LTE module, then the UE reduces the service flow of the ISM module;

如果所述不满足要求的 DRX中分配给 ISM模块的工作时间长度大于所述 ISM模块的最大期望工作时间长度，则所述 UE减少所述 ISM模块的业务流； If the working time length allocated to the ISM module in the DRX that does not meet the requirements is greater than the maximum expected working time length of the ISM module, then the UE reduces the service flow of the ISM module;

如果所述不满足要求的 DRX中分配给 ISM模块的工作时间长度小于所述 ISM模块的最小期望工作时间长度，贝 ij所述 UE减少所述 LTE模块的业务流。 If the working time length allocated to the ISM module in the DRX that does not meet the requirements is less than the minimum expected working time length of the ISM module, the UE reduces the service flow of the LTE module.

24、一种非连续接收机制的配置方法，其中，所述方法包括：基站接收 UE发送的 TDM辅助信息； 24. A method for configuring a discontinuous reception mechanism, wherein the method includes: the base station receiving the TDM auxiliary information sent by the UE;

基站根据所述 TDM辅助信息为所述 UE配置 DRX, 并将配置好的 DR 发送给所述 UE; The base station configures DRX for the UE according to the TDM auxiliary information, and sends the configured DR to the UE;

如果基站接收到 UE反馈的不满意指示，则所述基站向所述 UE发送拒绝消息，或者为所述 UE重新配置 DR 并将重新配置的 DRX发送给所述 UE，或者将所述 UE 切换到其他频率上，或者结束操作。 If the base station receives an unsatisfactory indication fed back by the UE, the base station sends a rejection message to the UE, or reconfigures DR for the UE and sends the reconfigured DRX to the UE, or switches the UE to on other frequencies, or end the operation.

25、一种用户设备（UE)，其中，所述 UE包括： 25. A user equipment (UE), wherein the UE includes:

确定单元，其确定所述 UE的共存模块在一个非连续接收（DRX) 周期内的期望工作时间长度端值；发送单元，其向基站发送包含所述端值的时分复用（TDM)辅助信息，以便基站根据所述 TDM辅助信息为所述 UE配置 DRX。 Determining unit, which determines the expected working time length end value of the coexistence module of the UE within a discontinuous reception (DRX) cycle; A sending unit that sends time division multiplexing (TDM) auxiliary information including the end value to the base station, so that the base station configures DRX for the UE according to the TDM auxiliary information.

26、根据权利要求 25所述的 UE，其中，所述共存模块为长期演进（LTE) 模块和工业科学医学（ISM) 模块，所述共存模块在一个 DR 周期内的期望工作时间长度端值为以下至少一种信息： 26. The UE according to claim 25, wherein the coexistence module is a Long Term Evolution (LTE) module and an Industrial Science and Medicine (ISM) module, and the expected working time length end value of the coexistence module within a DR cycle is At least one of the following information:

27、根据权利要求 26所述的 UE, 其中，所述确定单元包括： 27. The UE according to claim 26, wherein the determining unit includes:

记录模块，其记录预定时间段内所述共存模块的数据流； A recording module that records the data flow of the coexistence module within a predetermined time period;

第一确定模块，其根据所述数据流确定所述共存模块在一个 DR 周期内的期望工作时间长度端值。 The first determination module determines the end value of the expected working time length of the coexistence module within a DR cycle according to the data flow.

28、根据权利要求 26所述的 UE, 其中，所述确定单元包括： 28. The UE according to claim 26, wherein the determining unit includes:

第二确定模块，其根据所述共存模块所承载的业务的服务质量要求确定所述共存模块在一个 DR 周期内的期望工作时间长度端值。 The second determination module determines the end value of the expected working time length of the coexistence module within a DR cycle based on the service quality requirements of the services carried by the coexistence module.

29、根据权利要求 26所述的 UE, 其中，所述 UE还包括： 29. The UE according to claim 26, wherein the UE further includes:

第一处理单元，其在所述 UE接收到所述基站发送的拒绝消息时，调整所述共存模块的业务流，根据调整后的共存模块的业务流更新所述端值信息，然后向所述基站发送包含更新后的端值信息的 TDM辅助信息；和 /或 A first processing unit that adjusts the service flow of the coexistence module when the UE receives the rejection message sent by the base station, updates the end value information according to the adjusted service flow of the coexistence module, and then sends a request to the first processing unit. The base station sends TDM auxiliary information containing updated terminal value information; and/or

第二处理单元，其在所述 UE接收到所述基站发送的 DR 时，根据所述端值判断所述 DR 是否满足要求，如果不满足要求，则根据所述 DR 调整所述共存模块的业务流，根据调整后的共存模块的业务流更新所述端值信息，然后向所述基站发送包含更新后的端值信息的 TDM辅助信息。 The second processing unit, when the UE receives the DR sent by the base station, determines whether the DR meets the requirements according to the end value, and if it does not meet the requirements, adjusts the service of the coexistence module according to the DR flow, update the terminal value information according to the adjusted service flow of the coexistence module, and then send TDM auxiliary information including the updated terminal value information to the base station.

30、根据权利要求 29所述的 UE，其中，所述第二处理单元在所述 DR 中分配给 LTE模块的工作时间长度大于所述 LTE模块的最大期望工作时间长度；或者，分配给 LTE模块的工作时间长度小于所述 LTE模块的最小期望工作时间长度：或者，分配给 ISM模块的工作时间长度大于所述 ISM模块的最大期望工作时间长度;或者，分配给 ISM模块的工作时间长度小于所述 ISM模块的最小期望工作时间长度时，确定所述 DR 不满足要求。 30. The UE according to claim 29, wherein the working time length allocated to the LTE module by the second processing unit in the DR is greater than the maximum expected working time length of the LTE module; or, the working time length allocated to the LTE module The working time length is less than the minimum expected working time length of the LTE module: or, the working time length allocated to the ISM module is greater than the maximum expected working time length of the ISM module; or, the working time length allocated to the ISM module is less than the working time length allocated to the ISM module When describing the minimum expected operating time length of the ISM module, be sure It is determined that the stated DR does not meet the requirements.

31、根据权利要求 29所述的 UE，其中， 31. The UE according to claim 29, wherein,

所述第一处理单元在所述 UE收到所述拒绝消息后，立即调整所述共存模块的业务流或者在预定时间段后调整所述共存模块的业务流； The first processing unit, after the UE receives the rejection message, immediately adjusts the service flow of the coexistence module or adjusts the service flow of the coexistence module after a predetermined time period;

所述第二处理单元在所述 UE接收到不满足要求的 DR 后，立即调整所述共存模块的业务流或者在预定时间段后调整所述共存模块的业务流。 After the UE receives a DR that does not meet the requirements, the second processing unit immediately adjusts the service flow of the coexistence module or adjusts the service flow of the coexistence module after a predetermined time period.

32、根据权利要求 31所述的 UE，其中，所述第一处理单元或所述第二处理单元在所述 DR 中分配给 LTE模块的工作时间长度大于所述 LTE模块的最大期望工作时间长度时，减少所述 LTE模块的业务流；在所述 DRX中分配给 LTE模块的工作时间长度小于所述 LTE模块的最小期望工作时间长度时，减少所述 ISM模块的业务流；在所述 DR 中分配给 ISM模块的工作时间长度大于所述 ISM模块的最大期望工作时间长度时，减少所述 ISM模块的业务流；在所述 DR 中分配给 ISM模块的工作时间长度小于所述 ISM模块的最小期望工作时间长度时，减少所述 LTE模块的业务流。 32. The UE according to claim 31, wherein the working time length allocated to the LTE module by the first processing unit or the second processing unit in the DR is greater than the maximum expected working time length of the LTE module. When, reduce the service flow of the LTE module; when the working time length allocated to the LTE module in the DRX is less than the minimum expected working time length of the LTE module, reduce the business flow of the ISM module; When the DR When the working time length allocated to the ISM module in the DR is greater than the maximum expected working time length of the ISM module, the business flow of the ISM module is reduced; and the working time length allocated to the ISM module in the DR is less than the maximum expected working time length of the ISM module. When the minimum expected working time length is reached, the service flow of the LTE module is reduced.

33、一种基站，其中，所述基站包括： 33. A base station, wherein the base station includes:

接收单元，其接收 UE发送的包括其共存模块在一个 DRX周期内的期望工作时间长度端值的 TDM辅助信息； A receiving unit that receives TDM auxiliary information sent by the UE including the end value of the expected operating time length of its coexistence module within a DRX cycle;

第一处理单元，其根据所述 TDM辅助信息为所述 UE配置 DR 并将所述 DRX 发送给所述 UE。 A first processing unit that configures DR for the UE according to the TDM assistance information and sends the DRX to the UE.

34、根据权利要求 33所述的基站，其中，所述共存模块为 LTE模块和 ISM模块, 所述共存模块在一个 DR 周期内的期望工作时间长度端值为以下至少一种信息：所述 LTE模块的最大期望工作时间长度； 34. The base station according to claim 33, wherein the coexistence module is an LTE module and an ISM module, and the expected working time length end value of the coexistence module within a DR cycle is at least one of the following information: the LTE The maximum expected working time of the module;

35、根据权利要求 34所述的基站，其中，所述第一处理单元用于根据所述 TDM 辅助信息中的端值信息，为所述 UE的 LTE模块和 /或 ISM模块分配在一个 DRX周期内的工作时间；其中，分配给 LTE模块的工作时间长度小于所述 LTE模块的最大期望工作时间长度值；和 /或，分配给 LTE模块的工作时间长度大于所述 LTE模块的最小期望工作时间长度值；和 /或，分配 ISM模块的工作时间长度小于所述 ISM模块的最大期望工作时间长度值；和 /或，分配给 ISM模块的工作时间长度大于上述 LTE 模块的最小期望工作时间长度值。 35. The base station according to claim 34, wherein the first processing unit is configured to allocate a DRX cycle to the LTE module and/or ISM module of the UE according to the terminal value information in the TDM auxiliary information. within the working time; wherein, the working time length allocated to the LTE module is less than the maximum expected working time length value of the LTE module; and/or, the working time length allocated to the LTE module is greater than the LTE module The minimum expected working time length value; and/or, the working time length allocated to the ISM module is less than the maximum expected working time length value of the ISM module; and/or, the working time length allocated to the ISM module is greater than the minimum expected working time length of the above-mentioned LTE module Working time length value.

36、根据权利要求 33所述的基站，其中，所述基站还包括： 36. The base station according to claim 33, wherein the base station further includes:

判断单元，其根据所述接收单元接收到的 TDM辅助信息判断能否为 UE配置符合要求的 DRX; A judging unit that judges whether DRX that meets the requirements can be configured for the UE based on the TDM auxiliary information received by the receiving unit;

第二处理单元，其在所述判断单元判断为否时，向所述 UE发送拒绝消息，或者为所述 UE配置不能满足要求的 DR 并将该不能满足要求的 DRX发送给所述 UE, 或者将所述 UE切换到能满足要求的频率上。 The second processing unit sends a rejection message to the UE when the judgment unit determines that it is no, or configures a DR that cannot meet the requirements for the UE and sends the DRX that cannot meet the requirements to the UE, or Switch the UE to a frequency that can meet the requirements.

37、一种 UE, 其中，所述 UE包括： 37. A UE, wherein the UE includes:

发送单元，其向基站发送 TDM辅助信息，以便基站根据所述 TDM辅助信息为所述 UE配置初始 DRX; A sending unit that sends TDM auxiliary information to the base station, so that the base station configures initial DRX for the UE according to the TDM auxiliary information;

接收单元，其接收基站反馈的初始 DR ； The receiving unit receives the initial DR fed back by the base station;

第一判断单元，其根据预先确定的其共存模块在一个 DRX周期内的期望工作时间长度端值，判断所述初始 DRX是否满足要求； The first judgment unit determines whether the initial DRX meets the requirements based on the predetermined expected working time length end value of its coexistence module within a DRX cycle;

第一处理单元，其在所述第一判断单元判断为所述初始 DR 不满足要求时，向所述基站发送不满意指示或者调整其共存模块的业务流。 The first processing unit is configured to send an unsatisfactory indication to the base station or adjust the service flow of its coexistence module when the first judgment unit determines that the initial DR does not meet the requirements.

38、根据权利要求 37所述的 UE，其中，所述共存模块为 LTE模块和 ISM模块，所述共存模块在一个 DR 周期内的期望工作时间长度端值为以下至少一种信息- 所述 LTE模块的最大期望工作时间长度； 38. The UE according to claim 37, wherein the coexistence module is an LTE module and an ISM module, and the expected working time length end value of the coexistence module in a DR cycle is at least one of the following information - the LTE The maximum expected working time of the module;

39、根据权利要求 38所述的 UE，其中，所述第一判断单元用于在所述初始 DRX 中分配给 LTE模块的工作时间长度大于所述 LTE模块的最大期望工作时间长度；或者，分配给 LTE模块的工作时间长度小于所述 LTE模块的最小期望工作时间长度；或者，分配给 ISM模块的工作时间长度大于所述 ISM模块的最大期望工作时间长度：或者，分配给 ISM模块的工作时间长度小于所述 ISM模块的最小期望工作时间长度时，确定所述初始 DRX不满足要求。 39. The UE according to claim 38, wherein the first judgment unit is configured to allocate a working time length to the LTE module in the initial DRX that is greater than a maximum expected working time length of the LTE module; or, allocate The working time length assigned to the LTE module is less than the minimum expected working time length of the LTE module; or, the working time length allocated to the ISM module is greater than the maximum expected working time length of the ISM module: Or, the working time allocated to the ISM module When the length is less than the minimum expected working time length of the ISM module, it is determined that the initial DRX does not meet the requirements.

40、根据权利要求 38所述的 UE，其中，所述 UE还包括：第二判断单元，其根据预先确定的其共存模块在一个 DRX周期内的期望工作时间长度端值，判断是否接收到满足要求的 DRX; 40. The UE according to claim 38, wherein the UE further includes: a second judgment unit that judges whether to receive a signal that satisfies the requirement based on the predetermined expected working time length end value of its coexistence module within a DRX cycle. Required DRX;

第二处理单元，其在所述第二判断单元判断为没有接收到 DR 或者接收到的 DR 不能满足要求时，执行所述初始 DRX或者执行接收到的不满足要求的 DRX，并向所述基站发送不满意指示或者调整其共存模块的业务流。 The second processing unit, when the second judgment unit determines that no DR has been received or the received DR cannot meet the requirements, executes the initial DRX or executes the received DRX that does not meet the requirements, and reports to the base station Send an indication of dissatisfaction or adjust the service flow of its coexistence module.

41、根据权利要求 40所述的 UE，其中，所述第二判断单元用于在所述接收到的 DR 中分配给 LTE模块的工作时间长度大于所述 LTE模块的最大期望工作时间长度；或者，分配给 LTE模块的工作时间长度小于所述 LTE模块的最小期望工作时间长度；或者，分配给 ISM模块的工作时间长度大于所述 ISM模块的最大期望工作时间长度；或者，分配给 ISM模块的工作时间长度小于所述 ISM模块的最小期望工作时间长度时，确定所述接收到的 DRX不满足要求。 41. The UE according to claim 40, wherein the second judgment unit is configured to configure the working time length allocated to the LTE module in the received DR to be greater than the maximum expected working time length of the LTE module; or , the working time length allocated to the LTE module is less than the minimum expected working time length of the LTE module; or, the working time length allocated to the ISM module is greater than the maximum expected working time length of the ISM module; or, the working time length allocated to the ISM module When the working time length is less than the minimum expected working time length of the ISM module, it is determined that the received DRX does not meet the requirements.

42、根据权利要求 37所述的 UE，其中，所述 UE还包括： 42. The UE according to claim 37, wherein the UE further includes:

确定单元，其确定所述 UE的共存模块在一个 DRX周期内的期望工作时间长度端值。 Determining unit, which determines the end value of the expected working time length of the coexistence module of the UE within a DRX cycle.

43、根据权利要求 42所述的 UE，其中，所述确定单元包括： 43. The UE according to claim 42, wherein the determining unit includes:

第一确定模块，其根据所述数据流确定所述共存模块在一个 DRX周期内的期望工作时间长度端值。 The first determination module determines the expected working time length end value of the coexistence module within a DRX cycle according to the data flow.

44、根据权利要求 42所述的 UE, 其中，所述确定单元包括： 44. The UE according to claim 42, wherein the determining unit includes:

45、根据权利要求 38或 40所述的 UE，其中，所述不满意指示包含不满意原因，所述不满意原因包括： 45. The UE according to claim 38 or 40, wherein the dissatisfaction indication includes a reason for dissatisfaction, and the reason for dissatisfaction includes:

46、根据权利要求 38或 40所述的 UE，其中，所述第一处理单元或者所述第二处理单元在所述 UE接收到所述不满足要求的 DR 后，立即调整所述共存模块的业务流或者在预定时间段后调整所述共存模块的业务流。 46. The UE according to claim 38 or 40, wherein the first processing unit or the second After the UE receives the DR that does not meet the requirements, the processing unit immediately adjusts the service flow of the coexistence module or adjusts the service flow of the coexistence module after a predetermined time period.

47、根据权利要求 46所述的 UE，其中，所述第一处理单元或者所述第二处理单元在所述不满足要求的 DR 中分配给 LTE模块的工作时间长度大于所述 LTE模块的最大期望工作时间长度时，减少所述 LTE模块的业务流；在所述不满足要求的 DRX 中分配给 LTE模块的工作时间长度小于所述 LTE模块的最小期望工作时间长度时，减少所述 ISM模块的业务流；在所述不满足要求的 DR 中分配给 ISM模块的工作时间长度大于所述 ISM模块的最大期望工作时间长度时，减少所述 ISM模块的业务流；在所述不满足要求的 DR 中分配给 ISM模块的工作时间长度小于所述 ISM模块的最小期望工作时间长度时，减少所述 LTE模块的业务流。 47. The UE according to claim 46, wherein the working time length allocated to the LTE module by the first processing unit or the second processing unit in the DR that does not meet the requirements is greater than the maximum length of the LTE module. When the working time length is expected, reduce the service flow of the LTE module; when the working time length allocated to the LTE module in the DRX that does not meet the requirements is less than the minimum expected working time length of the LTE module, reduce the ISM module business flow; when the working time length allocated to the ISM module in the DR that does not meet the requirements is greater than the maximum expected working time length of the ISM module, reduce the business flow of the ISM module; in the DR that does not meet the requirements When the working time length allocated to the ISM module in the DR is less than the minimum expected working time length of the ISM module, the service flow of the LTE module is reduced.

48、一种基站，其中，所述基站包括： 48. A base station, wherein the base station includes:

接收单元，其接收 UE发送的 TDM辅助信息； A receiving unit that receives the TDM auxiliary information sent by the UE;

第一处理单元，其根据所述 TDM辅助信息为所述 UE配置 DRX, 并将配置好的 DR 发送给所述 UE; A first processing unit that configures DRX for the UE according to the TDM assistance information, and sends the configured DR to the UE;

第二处理单元，其在所述基站接收到 UE反馈的不满意指示时，向所述 UE发送拒绝消息，或者为所述 UE重新配置 DRX并将重新配置的 DR 发送给所述 UE，或者将所述 UE切换到其他频率上，或者结束操作。 The second processing unit is configured to send a rejection message to the UE when the base station receives an unsatisfactory indication fed back by the UE, or to reconfigure DRX for the UE and send the reconfigured DR to the UE, or to The UE switches to other frequencies or ends the operation.

49、一种通信***，所述通信***包括权利要求 1-8任一项所述的用户设备和权利要求 9-12任一项所述的基站。 49. A communication system, the communication system comprising the user equipment according to any one of claims 1-8 and the base station according to any one of claims 9-12.

50、一种通信***，所述通信***包括权利要求 13-23任一项所述的用户设备和权利要求 24所述的基站。 50. A communication system, the communication system comprising the user equipment according to any one of claims 13-23 and the base station according to claim 24.

51、一种计算机可读程序，其中当在终端设备中执行该程序时，该程序使得计算机在所述终端设备中执行权利要求 1-8,13-23任一项所述的非连续接收机制的配置方法。 51. A computer-readable program, wherein when the program is executed in a terminal device, the program causes the computer to execute the discontinuous reception mechanism described in any one of claims 1-8, 13-23 in the terminal device configuration method.

52、一种存储有计算机可读程序的存储介质，其中该计算机可读程序使得计算机在终端设备中执行权利要求 1-8,13-23任一项所述的非连续接收机制的配置方法。 52. A storage medium storing a computer-readable program, wherein the computer-readable program causes the computer to execute the configuration method of the discontinuous reception mechanism described in any one of claims 1-8, 13-23 in the terminal device.

53、一种计算机可读程序，其中当在基站中执行该程序时，该程序使得计算机在所述基站中执行权利要求 9-12,24任一项所述的非连续接收机制的配置方法。 53. A computer-readable program, wherein when the program is executed in a base station, the program causes the computer to execute the configuration method of the discontinuous reception mechanism described in any one of claims 9-12 and 24 in the base station.

54、一种存储有计算机可读程序的存储介质，其中该计算机可读程序使得计算机在基站中执行权利要求 9-12,24任一项所述的非连续接收机制的配置方法。 54. A storage medium storing a computer-readable program, wherein the computer-readable program causes the computer to execute the configuration method of the discontinuous reception mechanism according to any one of claims 9-12 and 24 in the base station.